Bio


Jelena Vuckovic is the Jensen Huang Professor in Global Leadership, a Professor of Electrical Engineering and by courtesy of Applied Physics at Stanford, where she leads the Nanoscale and Quantum Photonics Lab in the Ginzton Laboratory. She joined the Stanford Faculty in 2003, upon receiving her PhD degree from the California Institute of Technology (Caltech) in 2002. At Stanford, she also served as the Fortinet Founders Chair of the Electrical Engineering Department, and was the inaugural director of QFARM, the Stanford-SLAC Quantum Initiative.

Vuckovic is a member of the National Academy of Sciences and an External Scientific Member of the Max Planck Institute for Quantum Optics. Her awards include the Vannevar Bush Faculty Fellowship, Geoffrey Frew Fellowship from the Australian Academy of Sciences, the IET A. F. Harvey Engineering Research Prize, Distinguished Scholarship of the Max Planck Institute for Quantum Optics in Munich, Hans Fischer Senior Fellowship from the Institute for Advanced Studies at TU Munich, Marko V. Jaric Award for outstanding achievements in physics, Humboldt Prize, Presidential Early Career Award for Scientists and Engineers, DARPA Young Faculty Award, and the Office of Naval Research Young Investigator Award. She was the Mildred Dresselhaus Lecturer at MIT, and the James Gordon Memorial Speaker at Optica. She is a Fellow of the American Physical Society (APS), of the Optica, and of the Institute of Electronics and Electrical Engineers (IEEE).

Vuckovic is a co-founder of SPINS Photonics, a company commercializing photonics inverse design, and is a lead editor of Physical Review Applied.

Jelena Vuckovic’s research interests are broadly in the areas of photonics, quantum science and engineering, quantum optics, photonics inverse design, nonlinear optics, and cavity QED. Her current projects include semiconductor quantum systems, heterogeneously integrated, inverse designed photonics, and on-chip integrated laser systems, including Ti:sapphire lasers.

Academic Appointments


Administrative Appointments


  • Fortinet Founders Chair, Electrical Engineering Department (2021 - 2023)
  • Director, Q-FARM, Stanford-SLAC Quantum Science and Engineering Initiative (2019 - 2021)

Honors & Awards


  • External Scientific Member, Max Planck Institute for Quantum Optics (2024)
  • Member, National Academy of Sciences (2023)
  • Geoffrey Frew Fellowship, Australian Academy of Sciences (2023)
  • Vannevar Bush Faculty Fellow, Department of Defense (2022)
  • Mildred Dresselhaus Lecturer, MIT (2021)
  • James P. Gordon Memorial Speaker, Optical Society (OSA) (2020)
  • A. F. Harvey Engineering Research Prize, IET (2019)
  • Jensen Huang Professor in Global Leadership, School of Engineering, Stanford University (2019)
  • Distinguished Scholar, Max Planck Institute for Quantum Optics (MPQ) (2019)
  • Fellow, Institute of Electronics and Electrical Engineers (IEEE). (2018)
  • Fellow, Optical Society of America (OSA) (2015)
  • Fellow, American Physical Society (APS) (2015)
  • Hans Fischer Senior Fellow, Institute for Advanced Studies, Technical University Munich, Germany (2013)
  • Marko V. Jaric Award, for outstanding achievements in physics (2012)
  • Humboldt Prize (Humboldt Research Award), Alexander von Humboldt Foundation, Germany (2010)
  • Teaching Excellence Award, Society of Women Engineers, Stanford University (2009)
  • Chambers Faculty Scholar, Stanford University (2008)
  • Young Faculty Award, DARPA (2008)
  • Presidential Early Career Award for Scientists and Engineers (PECASE), United States (2007)
  • Research Grant Recipient, Okawa Foundation, Japan (2006)
  • Young Investigator Award, Office of Naval Research (2006)
  • Frederick E. Terman Fellow, Stanford University (2003)

Boards, Advisory Committees, Professional Organizations


  • Lead Editor, Physical Review Applied (2024 - Present)
  • Associate Editor, ACS Photonics (2018 - 2024)
  • Scientific advisory board member, Max Planck Institute for Quantum Optics (MPQ) in Garching, Germany (2015 - 2023)
  • Editorial Advisory Board Member, NPJ Quantum Information (2014 - Present)
  • Advisory Committee Member, National Science Foundation (NSF), Engineering Directorate (2019 - 2021)
  • Board member, Stanford SystemX Alliance (2015 - 2021)
  • Scientific advisory board member, Ferdinand Braun Institute, Berlin, Germany (2015 - 2020)
  • Editorial Advisory Board Member, Nanophotonics (2012 - Present)
  • Editorial Advisory Board Member, APL Photonics (2019 - Present)
  • Editorial Advisory Board Member, ACS Photonics (2014 - 2018)
  • Editorial Board Member, New Journal of Physics (2014 - 2014)

Program Affiliations


  • Stanford SystemX Alliance

Professional Education


  • PhD, California Institute of Technology (Caltech) (2002)

Current Research and Scholarly Interests


Jelena Vuckovic’s research interests are broadly in the areas of nanophotonics, quantum and nonlinear optics. Her lab develops semiconductor-based photonic chip-scale systems with goals to probe new regimes of light-matter interaction, as well as to enable platforms for future classical and quantum information processing technologies. She also works on transforming conventional photonics with the concept of inverse design, where optimal photonic devices are designed from scratch using computer algorithms with little to no human input. Her current projects include quantum and nonlinear optics, cavity QED, and quantum information processing with color centers in diamond and in silicon carbide, heterogeneously integrated chip-scale photonic systems, and on-chip laser driven particle accelerators.

2024-25 Courses


Stanford Advisees


All Publications


  • Editorial: A Vision for Physical Review Applied PHYSICAL REVIEW APPLIED Vuckovic, J. 2024; 22 (5)
  • Unified laser stabilization and isolation on a silicon chip NATURE PHOTONICS White, A. D., Ahn, G., Luhtaru, R., Guo, J., Morin, T. J., Saxena, A., Chang, L., Majumdar, A., Van Gasse, K., Bowers, J. E., Vuckovic, J. 2024
  • Single-Shot Readout and Weak Measurement of a Tin-Vacancy Qubit in Diamond PHYSICAL REVIEW X Rosenthal, E. I., Biswas, S., Scuri, G., Lee, H., Stein, A. J., Kleidermacher, H. C., Grzesik, J., Rugar, A. E., Aghaeimeibodi, S., Riedel, D., Titze, M., Bielejec, E. S., Choi, J., Anderson, C. P., Vu, J. 2024; 14 (4)
  • Nonlinear mid-infrared meta-membranes. Nanophotonics (Berlin, Germany) Sartorello, G., Bocanegra, J., Knez, D., Lukin, D. M., Yang, J., Vučković, J., Fishman, D. A., Shvets, G., Shcherbakov, M. R. 2024; 13 (18): 3395-3402

    Abstract

    Nanophotonic structures have shown promising routes to controlling and enhancing nonlinear optical processes at the nanoscale. However, most nonlinear nanostructures require a handling substrate, reducing their application scope. Due to the underwhelming heat dissipation, it has been a challenge to evaluate the nonlinear optical properties of free-standing nanostructures. Here, we overcome this challenge by performing shot-controlled fifth harmonic generation (FHG) measurements on a SiC meta-membrane - a free-standing transmission metasurface with pronounced optical resonances in the mid-infrared (λ res ≈ 4,000 nm). Back focal plane imaging of the FHG diffraction orders and rigorous finite-difference time-domain simulations reveal at least two orders of magnitude enhancement of the FHG from the meta-membrane, compared to the unstructured SiC film of the same thickness. Single-shot measurements of the meta-membrane with varying resonance positions reveal an unusual spectral behavior that we explain with Kerr-driven intensity-dependent resonance dynamics. This work paves the way for novel substrate-less nanophotonic architectures.

    View details for DOI 10.1515/nanoph-2024-0203

    View details for PubMedID 39634836

    View details for PubMedCentralID PMC11501238

  • Nonlinear mid-infrared meta-membranes NANOPHOTONICS Sartorello, G., Bocanegra, J., Knez, D., Lukin, D. M., Yang, J., Vuckovic, J., Fishman, D. A., Shvets, G., Shcherbakov, M. R. 2024
  • Publisher Correction: Titanium:sapphire-on-insulator integrated lasers and amplifiers. Nature Yang, J., Van Gasse, K., Lukin, D. M., Guidry, M. A., Ahn, G. H., White, A. D., Vučković, J. 2024

    View details for DOI 10.1038/s41586-024-07775-5

    View details for PubMedID 38982215

  • Titanium:sapphire-on-insulator integrated lasers and amplifiers. Nature Yang, J., Van Gasse, K., Lukin, D. M., Guidry, M. A., Ahn, G. H., White, A. D., Vučković, J. 2024; 630 (8018): 853-859

    Abstract

    Titanium:sapphire (Ti:sapphire) lasers have been essential for advancing fundamental research and technological applications, including the development of the optical frequency comb1, two-photon microscopy2 and experimental quantum optics3,4. Ti:sapphire lasers are unmatched in bandwidth and tuning range, yet their use is restricted because of their large size, cost and need for high optical pump powers5. Here we demonstrate a monocrystalline titanium:sapphire-on-insulator (Ti:SaOI) photonics platform that enables dramatic miniaturization, cost reduction and scalability of Ti:sapphire technology. First, through the fabrication of low-loss whispering-gallery-mode resonators, we realize a Ti:sapphire laser operating with an ultralow, sub-milliwatt lasing threshold. Then, through orders-of-magnitude improvement in mode confinement in Ti:SaOI waveguides, we realize an integrated solid-state (that is, non-semiconductor) optical amplifier operating below 1 μm. We demonstrate unprecedented distortion-free amplification of picosecond pulses to peak powers reaching 1.0 kW. Finally, we demonstrate a tunable integrated Ti:sapphire laser, which can be pumped with low-cost, miniature, off-the-shelf green laser diodes. This opens the doors to new modalities of Ti:sapphire lasers, such as massively scalable Ti:sapphire laser-array systems for several applications. As a proof-of-concept demonstration, we use a Ti:SaOI laser array as the sole optical control for a cavity quantum electrodynamics experiment with artificial atoms in silicon carbide6. This work is a key step towards the democratization of Ti:sapphire technology through a three-orders-of-magnitude reduction in cost and footprint and introduces solid-state broadband amplification of sub-micron wavelength light.

    View details for DOI 10.1038/s41586-024-07457-2

    View details for PubMedID 38926612

    View details for PubMedCentralID 5734860

  • Efficient Photonic Integration of Diamond Color Centers and Thin-Film Lithium Niobate ACS PHOTONICS Riedel, D., Lee, H., Herrmann, J. F., Grzesik, J., Ansari, V., Borit, J., Stokowski, H. S., Aghaeimeibodi, S., Lu, H., McQuade, P. J., Melosh, N. A., Shen, Z., Safavi-Naeini, A. H., Vuckovic, J. 2023; 10 (12): 4236-4243
  • Modular Aptamer Switches for the Continuous Optical Detection of Small-Molecule Analytes in Complex Media. Advanced materials (Deerfield Beach, Fla.) Hariri, A. A., Cartwright, A. P., Dory, C., Gidi, Y., Yee, S., Thompson, I. A., Fu, K., Yang, K., Wu, D., Maganzini, N., Feagin, T., Young, B. E., Afshar, B. H., Eisenstein, M., Digonnet, M., Vuckovic, J., Soh, H. T. 2023: e2304410

    Abstract

    Aptamers are a promising class of affinity reagents because signal transduction mechanisms can be built into the reagent, so that they can directly produce a physically measurable output signal upon target binding. However, endowing the signal transduction functionality into an aptamer remains a trial-and-error process that can compromise its affinity or specificity and typically requires knowledge of the ligand binding domain or its structure. In this work, we describe a design architecture that can convert an existing aptamer into a "reversible aptamer-switch" whose kinetic and thermodynamic properties can be tuned without a priori knowledge of the ligand binding domain or its structure. Finally, by combining these aptamer-switches with evanescent-field based optical detection hardware that rejects sample autofluorescence, we demonstrate the first optical biosensor system that can continuously measure multiple biomarkers (dopamine and cortisol) in complex samples (artificial cerebrospinal fluid and undiluted plasma) with second-scale time resolution at physiologically relevant concentration ranges. This article is protected by copyright. All rights reserved.

    View details for DOI 10.1002/adma.202304410

    View details for PubMedID 37975267

  • Quantum Photonic Circuits Integrated with Color Centers in Designer Nanodiamonds. Nano letters Ngan, K., Zhan, Y., Dory, C., Vučković, J., Sun, S. 2023

    Abstract

    Diamond has emerged as a leading host material for solid-state quantum emitters, quantum memories, and quantum sensors. However, the challenges in fabricating photonic devices in diamond have limited its potential for use in quantum technologies. While various hybrid integration approaches have been developed for coupling diamond color centers with photonic devices defined in a heterogeneous material, these methods suffer from either large insertion loss at the material interface or evanescent light-matter coupling. Here, we present a new technique that enables the deterministic assembly of diamond color centers in a silicon nitride photonic circuit. Using this technique, we observe Purcell enhancement of silicon vacancy centers coupled to a silicon nitride ring resonator. Our hybrid integration approach has the potential for achieving the maximum possible light-matter interaction strength while maintaining low insertion loss and paves the way toward scalable manufacturing of large-scale quantum photonic circuits integrated with high-quality quantum emitters and spins.

    View details for DOI 10.1021/acs.nanolett.3c02645

    View details for PubMedID 37782048

  • An antibody-based molecular switch for continuous small-molecule biosensing. Science advances Thompson, I. A., Saunders, J., Zheng, L., Hariri, A. A., Maganzini, N., Cartwright, A. P., Pan, J., Yee, S., Dory, C., Eisenstein, M., Vuckovic, J., Soh, H. T. 2023; 9 (38): eadh4978

    Abstract

    We present a generalizable approach for designing biosensors that can continuously detect small-molecule biomarkers in real time and without sample preparation. This is achieved by converting existing antibodies into target-responsive "antibody-switches" that enable continuous optical biosensing. To engineer these switches, antibodies are linked to a molecular competitor through a DNA scaffold, such that competitive target binding induces scaffold switching and fluorescent signaling of changing target concentrations. As a demonstration, we designed antibody-switches that achieve rapid, sample preparation-free sensing of digoxigenin and cortisol in undiluted plasma. We showed that, by substituting the molecular competitor, we can further modulate the sensitivity of our cortisol switch to achieve detection at concentrations spanning 3.3 nanomolar to 3.3 millimolar. Last, we integrated this switch with a fiber optic sensor to achieve continuous sensing of cortisol in a buffer and blood with <5-min time resolution. We believe that this modular sensor design can enable continuous biosensor development for many biomarkers.

    View details for DOI 10.1126/sciadv.adh4978

    View details for PubMedID 37738337

  • An Inverse-Designed Nanophotonic Interface for Excitons in Atomically Thin Materials. Nano letters Gelly, R. J., White, A. D., Scuri, G., Liao, X., Ahn, G. H., Deng, B., Watanabe, K., Taniguchi, T., Vučković, J., Park, H. 2023

    Abstract

    Efficient nanophotonic devices are essential for applications in quantum networking, optical information processing, sensing, and nonlinear optics. Extensive research efforts have focused on integrating two-dimensional (2D) materials into photonic structures, but this integration is often limited by size and material quality. Here, we use hexagonal boron nitride (hBN), a benchmark choice for encapsulating atomically thin materials, as a waveguiding layer while simultaneously improving the optical quality of the embedded films. When combined with a photonic inverse design, it becomes a complete nanophotonic platform to interface with optically active 2D materials. Grating couplers and low-loss waveguides provide optical interfacing and routing, tunable cavities provide a large exciton-photon coupling to transition metal dichalcogenide (TMD) monolayers through Purcell enhancement, and metasurfaces enable the efficient detection of TMD dark excitons. This work paves the way for advanced 2D-material nanophotonic structures for classical and quantum nonlinear optics.

    View details for DOI 10.1021/acs.nanolett.3c02931

    View details for PubMedID 37695253

  • Microwave Spin Control of a Tin-Vacancy Qubit in Diamond PHYSICAL REVIEW X Rosenthal, E. I., Anderson, C. P., Kleidermacher, H. C., Stein, A. J., Lee, H., Grzesik, J., Scuri, G., Rugar, A. E., Riedel, D., Aghaeimeibodi, S., Ahn, G., Van Gasse, K., Vuekovie, J. 2023; 13 (3)
  • Inverse-designed silicon carbide quantum and nonlinear photonics. Light, science & applications Yang, J., Guidry, M. A., Lukin, D. M., Yang, K., Vučković, J. 2023; 12 (1): 201

    Abstract

    Inverse design has revolutionized the field of photonics, enabling automated development of complex structures and geometries with unique functionalities unmatched by classical design. However, the use of inverse design in nonlinear photonics has been limited. In this work, we demonstrate quantum and classical nonlinear light generation in silicon carbide nanophotonic inverse-designed Fabry-Pérot cavities. We achieve ultra-low reflector losses while targeting a pre-specified anomalous dispersion to reach optical parametric oscillation. By controlling dispersion through inverse design, we target a second-order phase-matching condition to realize second- and third-order nonlinear light generation in our devices, thereby extending stimulated parametric processes into the visible spectrum. This first realization of computational optimization for nonlinear light generation highlights the power of inverse design for nonlinear optics, in particular when combined with highly nonlinear materials such as silicon carbide.

    View details for DOI 10.1038/s41377-023-01253-9

    View details for PubMedID 37607918

    View details for PubMedCentralID PMC10444789

  • Bounds on Efficiency Metrics in Photonics ACS PHOTONICS Angeris, G., Diamandis, T., Vuckovic, J., Boyd, S. P. 2023
  • Universal visible emitters in nanoscale integrated photonics OPTICA Spektor, G., Carlson, D., Newman, Z., Skarda, J. L., Sapra, N., Su, L., Jammi, S., Ferdinand, A. R., Agrawal, A., Vuckovic, J., Papp, S. B. 2023; 10 (7): 871-879
  • Multimode squeezing in soliton crystal microcombs OPTICA Guidry, M. A., Lukin, D. M., Yang, K., Vuckovic, J. 2023; 10 (6): 694-701
  • Inverse Designed Couplers for Use in Gallium Arsenide Photonics ACS PHOTONICS Carfagno, H., Guidry, M., Yang, J., McCabe, L., Zide, J. O., Vuckovic, J., Doty, M. F. 2023
  • Platform-agnostic waveguide integration of high-speed photodetectors with evaporated tellurium thin films OPTICA Ahn, G., White, A. D., Kim, H., Higashitarumizu, N., Mayor, F. M., Herrmann, J. F., Jiang, W., Multani, K. S., Safavi-Naeini, A. H., Javey, A., Vuckovic, J. 2023; 10 (3): 349-355
  • Two-Emitter Multimode Cavity Quantum Electrodynamics in Thin-Film Silicon Carbide Photonics PHYSICAL REVIEW X Lukin, D. M., Guidry, M. A., Yang, J., Ghezellou, M., Mishra, S., Abe, H., Ohshima, T., Ul-Hassan, J., Vuckovic, J. 2023; 13 (1)
  • Multi-dimensional data transmission using inverse-designed silicon photonics and microcombs. Nature communications Yang, K. Y., Shirpurkar, C., White, A. D., Zang, J., Chang, L., Ashtiani, F., Guidry, M. A., Lukin, D. M., Pericherla, S. V., Yang, J., Kwon, H., Lu, J., Ahn, G. H., Van Gasse, K., Jin, Y., Yu, S. P., Briles, T. C., Stone, J. R., Carlson, D. R., Song, H., Zou, K., Zhou, H., Pang, K., Hao, H., Trask, L., Li, M., Netherton, A., Rechtman, L., Stone, J. S., Skarda, J. L., Su, L., Vercruysse, D., MacLean, J. W., Aghaeimeibodi, S., Li, M. J., Miller, D. A., Marom, D. M., Willner, A. E., Bowers, J. E., Papp, S. B., Delfyett, P. J., Aflatouni, F., Vučković, J. 2022; 13 (1): 7862

    Abstract

    The use of optical interconnects has burgeoned as a promising technology that can address the limits of data transfer for future high-performance silicon chips. Recent pushes to enhance optical communication have focused on developing wavelength-division multiplexing technology, and new dimensions of data transfer will be paramount to fulfill the ever-growing need for speed. Here we demonstrate an integrated multi-dimensional communication scheme that combines wavelength- and mode- multiplexing on a silicon photonic circuit. Using foundry-compatible photonic inverse design and spectrally flattened microcombs, we demonstrate a 1.12-Tb/s natively error-free data transmission throughout a silicon nanophotonic waveguide. Furthermore, we implement inverse-designed surface-normal couplers to enable multimode optical transmission between separate silicon chips throughout a multimode-matched fibre. All the inverse-designed devices comply with the process design rules for standard silicon photonic foundries. Our approach is inherently scalable to a multiplicative enhancement over the state of the art silicon photonic transmitters.

    View details for DOI 10.1038/s41467-022-35446-4

    View details for PubMedID 36543782

    View details for PubMedCentralID PMC9772188

  • Integrated passive nonlinear optical isolators NATURE PHOTONICS White, A. D., Ahn, G., Gasse, K., Yang, K., Chang, L., Bowers, J. E., Vuckovic, J. 2022
  • Inverse Design of Optical Vortex Beam Emitters ACS PHOTONICS White, A. D., Su, L., Shahar, D. I., Yang, K., Ahn, G., Skarda, J. L., Ramachandran, S., Vuckovic, J. 2022
  • Quantum Optical Microphone in the Audio Band PRX QUANTUM Nold, R., Babin, C., Schmidt, J., Linkewitz, T., Zaballos, M., Stoehr, R., Kolesov, R., Vorobyov, V., Lukin, D. M., Boppert, R., Barz, S., Vuelovie, J., Gebhardt, J. M., Kaiser, F., Wrachtrup, J. 2022; 3 (2)
  • Photonic Inverse Design of On-Chip Microresonators ACS PHOTONICS Ahn, G., Yang, K., Trivedi, R., White, A. D., Su, L., Skarda, J., Vuckovic, J. 2022; 9 (6): 1875-1881
  • Enhancing Superradiance in Spectrally Inhomogeneous Cavity QED Systems with Dynamic Modulation ACS PHOTONICS White, A. D., Trivedi, R., Narayanan, K., Vuckovic, J. 2022
  • Creating boundaries along a synthetic frequency dimension. Nature communications Dutt, A., Yuan, L., Yang, K. Y., Wang, K., Buddhiraju, S., Vuckovic, J., Fan, S. 2022; 13 (1): 3377

    Abstract

    Synthetic dimensions have garnered widespread interest for implementing high dimensional classical and quantum dynamics on low-dimensional geometries. Synthetic frequency dimensions, in particular, have been used to experimentally realize a plethora of bulk physics effects. However, in synthetic frequency dimension there has not been a demonstration of a boundary which is of paramount importance in topological physics due to the bulk-edge correspondence. Here we construct boundaries in the frequency dimension of dynamically modulated ring resonators by strongly coupling an auxiliary ring. We explore various effects associated with such boundaries, including confinement of the spectrum of light, discretization of the band structure, and the interaction of boundaries with one-way chiral modes in a quantum Hall ladder, which exhibits topologically robust spectral transport. Our demonstration of sharp boundaries fundamentally expands the capability of exploring topological physics, and has applications in classical and quantum information processing in synthetic frequency dimensions.

    View details for DOI 10.1038/s41467-022-31140-7

    View details for PubMedID 35697716

  • Low-overhead distribution strategy for simulation and optimization of large-area metasurfaces NPJ COMPUTATIONAL MATERIALS Skarda, J., Trivedi, R., Su, L., Ahmad-Stein, D., Kwon, H., Han, S., Fan, S., Vuckovic, J. 2022; 8 (1)
  • Few-particle scattering from localized quantum systems in spatially structured bosonic baths QUANTUM Trivedi, R., Fischer, K., Fan, S., Vuckovic, J. 2022; 6
  • Quantum optics of soliton microcombs NATURE PHOTONICS Guidry, M. A., Lukin, D. M., Yang, K., Trivedi, R., Vuckovic, J. 2021
  • Inverse-Designed Photonic Crystal Circuits for Optical Beam Steering ACS PHOTONICS Vercruysse, D., Sapra, N., Yang, K., Vuckovic, J. 2021; 8 (10): 3085-3093
  • Control Design for Inhomogeneous-Broadening Compensation in Single-Photon PHYSICAL REVIEW APPLIED Mishra, S., Trivedi, R., Safavi-Naeini, A. H., Vuckovic, J. 2021; 16 (4)
  • Quantum Photonic Interface for Tin-Vacancy Centers in Diamond PHYSICAL REVIEW X Rugar, A. E., Aghaeimeibodi, S., Riedel, D., Dory, C., Lu, H., McQuade, P. J., Shen, Z., Melosh, N. A., Vuckovic, J. 2021; 11 (3)
  • Optimal two-photon excitation of bound states in non-Markovian waveguide QED PHYSICAL REVIEW A Trivedi, R., Malz, D., Sun, S., Fan, S., Vuckovic, J. 2021; 104 (1)
  • Convex restrictions in physical design. Scientific reports Angeris, G., Vuckovic, J., Boyd, S. 2021; 11 (1): 12976

    Abstract

    In a physical design problem, the designer chooses values of some physical parameters, within limits, to optimize the resulting field. We focus on the specific case in which each physical design parameter is the ratio of two field variables. This form occurs for photonic design with real scalar fields, diffusion-type systems, and others. We show that such problems can be reduced to a convex optimization problem, and therefore efficiently solved globally, given the sign of an optimal field at every point. This observation suggests a heuristic, in which the signs of the field are iteratively updated. This heuristic appears to have good practical performance on diffusion-type problems (including thermal design and resistive circuit design) and some control problems, while exhibiting moderate performance on photonic design problems. We also show in many practical cases there exist globally optimal designs whose design parameters are maximized or minimized at each point in the domain, i.e., that there is a discrete globally optimal structure.

    View details for DOI 10.1038/s41598-021-92451-1

    View details for PubMedID 34155295

  • Electrical Tuning of Tin-Vacancy Centers in Diamond PHYSICAL REVIEW APPLIED Aghaeimeibodi, S., Riedel, D., Rugar, A. E., Dory, C., Vuckovic, J. 2021; 15 (6)
  • Site-Controlled Quantum Emitters in Monolayer MoSe2. Nano letters Yu, L., Deng, M., Zhang, J. L., Borghardt, S., Kardynal, B., Vuckovic, J., Heinz, T. F. 2021

    Abstract

    Atomically thin semiconductors provide a highly attractive platform for quantum emitters (QEs): They can be combined with arbitrary substrates, can be spatially aligned with photonic structures, and can be electrically driven. All QEs reported to date in these materials have, however, relied on nominally spin-forbidden transitions, with radiative rates falling substantially below those of other solid-state QE systems. Here we employ strain confinement in monolayer MoSe2 to produce engineered QEs, as confirmed in photon antibunching measurements. We discuss spin-allowed versus spin-forbidden transitions based on magneto- and time-resolved photoluminescence measurements. We calculate a radiative rate for spin-allowed quantum emission greater than 1 ns-1, which exceeds reported radiative rates of WSe2 QEs by 2 orders of magnitude.

    View details for DOI 10.1021/acs.nanolett.0c04282

    View details for PubMedID 33689386

  • Development of Quantum Interconnects (QuICs) for Next-Generation Information Technologies PRX QUANTUM Awschalom, D., Berggren, K. K., Bernien, H., Bhave, S., Carr, L. D., Davids, P., Economou, S. E., Englund, D., Faraon, A., Fejer, M., Guha, S., Gustafsson, M., Hu, E., Jiang, L., Kim, J., Korzh, B., Kumar, P., Kwiat, P. G., Loncar, M., Lukin, M. D., Miller, D. B., Monroe, C., Nam, S., Narang, P., Orcutt, J. S., Raymer, M. G., Safavi-Naeini, A. H., Spiropulu, M., Srinivasan, K., Sun, S., Vuckovic, J., Waks, E., Walsworth, R., Weiner, A. M., Zhang, Z. 2021; 2 (1)
  • Quantum Simulators: Architectures and Opportunities PRX QUANTUM Altman, E., Brown, K. R., Carleo, G., Carr, L. D., Demler, E., Chin, C., DeMarco, B., Economou, S. E., Eriksson, M. A., Fu, K. C., Greiner, M., Hazzard, K. A., Hulet, R. G., Kollar, A. J., Lev, B. L., Lukin, M. D., Ma, R., Mi, X., Misra, S., Monroe, C., Murch, K., Nazario, Z., Ni, K., Potter, A. C., Roushan, P., Saffman, M., Schleier-Smith, M., Siddiqi, I., Simmonds, R., Singh, M., Spielman, I. B., Temme, K., Weiss, D. S., Vuckovic, J., Vuletic, V., Ye, J., Zwierlein, M. 2021; 2 (1)
  • Heuristic methods and performance bounds for photonic design OPTICS EXPRESS Angeris, G., Vuckovic, J., Boyd, S. 2021; 29 (2): 2827–54

    View details for DOI 10.1364/OE.415052

    View details for Web of Science ID 000609227300184

  • Generating arbitrary topological windings of a non-Hermitian band. Science (New York, N.Y.) Wang, K., Dutt, A., Yang, K. Y., Wojcik, C. C., Vuckovic, J., Fan, S. 2021; 371 (6535): 1240–45

    Abstract

    The nontrivial topological features in the energy band of non-Hermitian systems provide promising pathways to achieve robust physical behaviors in classical or quantum open systems. A key topological feature of non-Hermitian systems is the nontrivial winding of the energy band in the complex energy plane. We provide experimental demonstrations of such nontrivial winding by implementing non-Hermitian lattice Hamiltonians along a frequency synthetic dimension formed in a ring resonator undergoing simultaneous phase and amplitude modulations, and by directly characterizing the complex band structures. Moreover, we show that the topological winding can be controlled by changing the modulation waveform. Our results allow for the synthesis and characterization of topologically nontrivial phases in nonconservative systems.

    View details for DOI 10.1126/science.abf6568

    View details for PubMedID 33737483

  • Quantum Control of Microwave-to-Optical Transducers for Inhomogeneous Broadening Compensation Mishra, S., Trivedi, R., Safavi-Naeini, A. H., Vuckovic, J., IEEE IEEE. 2021
  • Arbitrary control and direct measurement of topological windings of a non-Hermitian band Wang, K., Dutt, A., Yang, K., Wojcik, C. C., Vuckovic, J., Fan, S., IEEE IEEE. 2021
  • Narrow-linewidth tin-vacancy centers in diamond waveguides Rugar, A. E., Aghaeimeibodi, S., Dory, C., Lu, H., McQuade, P. J., Mishra, S., Sun, S., Shen, Z., Melosh, N. A., Vuckovic, J., IEEE IEEE. 2021
  • Inverse Spectral Design of Kerr Microcomb Pulses Lucas, E., Yu, S., Ahn, G., Yang, K., Vuckovic, J., Papp, S. B., Ilchenko, V. S., Armani, A. M., Sheldakova, J. V., Kudryashov, A. V., Paxton, A. H. SPIE-INT SOC OPTICAL ENGINEERING. 2021

    View details for DOI 10.1117/12.2576439

    View details for Web of Science ID 000695307500001

  • A fluorescence sandwich immunoassay for the real-time continuous detection of glucose and insulin in live animals. Nature biomedical engineering Poudineh, M., Maikawa, C. L., Ma, E. Y., Pan, J., Mamerow, D., Hang, Y., Baker, S. W., Beirami, A., Yoshikawa, A., Eisenstein, M., Kim, S., Vuckovic, J., Appel, E. A., Soh, H. T. 2020

    Abstract

    Biosensors that continuously measure circulating biomolecules in real time could provide insights into the health status of patients and their response to therapeutics. But biosensors for the continuous real-time monitoring of analytes in vivo have only reached nanomolar sensitivity and can measure only a handful of molecules, such as glucose and blood oxygen. Here we show that multiple analytes can be continuously and simultaneously measured with picomolar sensitivity and sub-second resolution via the integration of aptamers and antibodies into a bead-based fluorescence sandwich immunoassay implemented in a custom microfluidic chip. After an incubation time of 30s, bead fluorescence is measured using a high-speed camera under spatially multiplexed two-colour laser illumination. We used the assay for continuous quantification of glucose and insulin concentrations in the blood of live diabetic rats to resolve inter-animal differences in the pharmacokinetic response to insulin as well as discriminate pharmacokinetic profiles from different insulin formulations. The assay can be readily modified to continuously and simultaneously measure other blood analytes in vivo.

    View details for DOI 10.1038/s41551-020-00661-1

    View details for PubMedID 33349659

  • Integrated Quantum Photonics with Silicon Carbide: Challenges and Prospects PRX QUANTUM Lukin, D. M., Guidry, M. A., Vuckovic, J. 2020; 1 (2)
  • Beating absorption in solid-state high harmonics COMMUNICATIONS PHYSICS Liu, H., Vampa, G., Zhang, J., Shi, Y., Buddhiraju, S., Fan, S., Vuckovic, J., Bucksbaum, P. H., Reis, D. A. 2020; 3 (1)
  • Optical parametric oscillation in silicon carbide nanophotonics OPTICA Guidry, M. A., Yang, K., Lukin, D. M., Markosyan, A., Yang, J., Fejer, M. M., Vuckovic, J. 2020; 7 (9): 1139–42
  • Spectrally reconfigurable quantum emitters enabled by optimized fast modulation NPJ QUANTUM INFORMATION Lukin, D. M., White, A. D., Trivedi, R., Guidry, M. A., Morioka, N., Babin, C., Soykal, O. O., Ul-Hassan, J., Son, N., Ohshima, T., Vasireddy, P. K., Nasr, M. H., Sun, S., MacLean, J. W., Dory, C., Nanni, E. A., Wrachtrup, J., Kaiser, F., Vuckovic, J. 2020; 6 (1)
  • Narrow-Linewidth Tin-Vacancy Centers in a Diamond Waveguide ACS PHOTONICS Rugar, A. E., Dory, C., Aghaeimeibodi, S., Lu, H., Sun, S., Mishra, S., Shen, Z., Melosh, N. A., Vuckovic, J. 2020; 7 (9): 2356–61
  • Analytic and geometric properties of scattering from periodically modulated quantum-optical systems PHYSICAL REVIEW A Trivedi, R., White, A., Fan, S., Vuckovic, J. 2020; 102 (3)
  • Bounds for Scattering from Absorptionless Electromagnetic Structures PHYSICAL REVIEW APPLIED Trivedi, R., Angeris, G., Su, L., Boyd, S., Fan, S., Vuckovic, J. 2020; 14 (1)
  • Vibronic States and Their Effect on the Temperature and Strain Dependence of Silicon-Vacancy Qubits in 4H-SiC PHYSICAL REVIEW APPLIED Udvarhelyi, P., Thiering, G., Morioka, N., Babin, C., Kaiser, F., Lukin, D., Ohshima, T., Ul-Hassan, J., Nguyen Tien Son, Vuckovic, J., Wrachtrup, J., Gali, A. 2020; 13 (5)
  • Inverse-designed non-reciprocal pulse router for chip-based LiDAR NATURE PHOTONICS Yang, K., Skarda, J., Cotrufo, M., Dutt, A., Ahn, G., Sawaby, M., Vercruysse, D., Arbabian, A., Fan, S., Alu, A., Vuckovic, J. 2020
  • Inverse-Designed Photonics for Semiconductor Foundries ACS PHOTONICS Piggott, A. Y., Ma, E. Y., Su, L., Ahn, G., Sapra, N. V., Vercruysse, D., Netherton, A. M., Khope, A. P., Bowers, J. E., Vuckovic, J. 2020; 7 (3): 569–75
  • Dispersion Engineering With Photonic Inverse Design IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS Vercruysse, D., Sapra, N. V., Su, L., Vuckovic, J. 2020; 26 (2)
  • Nanophotonic inverse design with SPINS: Software architecture and practical considerations APPLIED PHYSICS REVIEWS Su, L., Vercruysse, D., Skarda, J., Sapra, N. V., Petykiewicz, J. A., Vuckovic, J. 2020; 7 (1)

    View details for DOI 10.1063/1.5131263

    View details for Web of Science ID 000518994900001

  • Revealing multiple classes of stable quantum emitters in hexagonal boron nitride with correlated optical and electron microscopy. Nature materials Hayee, F., Yu, L., Zhang, J. L., Ciccarino, C. J., Nguyen, M., Marshall, A. F., Aharonovich, I., Vuckovic, J., Narang, P., Heinz, T. F., Dionne, J. A. 2020

    Abstract

    Defects in hexagonal boron nitride (hBN) exhibit high-brightness, room-temperature quantum emission, but their large spectral variability and unknown local structure challenge their technological utility. Here, we directly correlate hBN quantum emission with local strain using a combination of photoluminescence (PL), cathodoluminescence (CL) and nanobeam electron diffraction. Across 40 emitters, we observe zero phonon lines (ZPLs) in PL and CL ranging from 540 to 720nm. CL mapping reveals that multiple defects and distinct defect species located within an optically diffraction-limited region can each contribute to the observed PL spectra. Local strain maps indicate that strain is not required to activate the emitters and is not solely responsible for the observed ZPL spectral range. Instead, at least four distinct defect classes are responsible for the observed emission range, and all four classes are stable upon both optical and electron illumination. Our results provide a foundation for future atomic-scale optical characterization of colour centres.

    View details for DOI 10.1038/s41563-020-0616-9

    View details for PubMedID 32094492

  • Publisher Correction: Data-driven acceleration of photonic simulations. Scientific reports Trivedi, R., Su, L., Lu, J., Schubert, M. F., Vuckovic, J. 2020; 10 (1): 3330

    Abstract

    An amendment to this paper has been published and can be accessed via a link at the top of the paper.

    View details for DOI 10.1038/s41598-020-59308-5

    View details for PubMedID 32071353

  • Generation of Tin-Vacancy Centers in Diamond via Shallow Ion Implantation and Subsequent Diamond Overgrowth. Nano letters Rugar, A. E., Lu, H., Dory, C., Sun, S., McQuade, P. J., Shen, Z., Melosh, N. A., Vuckovic, J. 2020

    Abstract

    Group IV color centers in diamond have garnered great interest for their potential as optically active solid-state spin qubits. The future utilization of such emitters requires the development of precise site-controlled emitter generation techniques that are compatible with high-quality nanophotonic devices. This task is more challenging for color centers with large group IV impurity atoms, which are otherwise promising because of their predicted long spin coherence times without a dilution refrigerator. For example, when applied to the negatively charged tin-vacancy (SnV-) center, conventional site-controlled color center generation methods either damage the diamond surface or yield bulk spectra with unexplained features. Here we demonstrate a novel method to generate site-controlled SnV- centers with clean bulk spectra. We shallowly implant Sn ions through a thin implantation mask and subsequently grow a layer of diamond via chemical vapor deposition. This method can be extended to other color centers and integrated with quantum nanophotonic device fabrication.

    View details for DOI 10.1021/acs.nanolett.9b04495

    View details for PubMedID 32031821

  • On-chip integrated laser-driven particle accelerator. Science (New York, N.Y.) Sapra, N. V., Yang, K. Y., Vercruysse, D. n., Leedle, K. J., Black, D. S., England, R. J., Su, L. n., Trivedi, R. n., Miao, Y. n., Solgaard, O. n., Byer, R. L., Vučkovicć, J. n. 2020; 367 (6473): 79–83

    Abstract

    Particle accelerators represent an indispensable tool in science and industry. However, the size and cost of conventional radio-frequency accelerators limit the utility and reach of this technology. Dielectric laser accelerators (DLAs) provide a compact and cost-effective solution to this problem by driving accelerator nanostructures with visible or near-infrared pulsed lasers, resulting in a 104 reduction of scale. Current implementations of DLAs rely on free-space lasers directly incident on the accelerating structures, limiting the scalability and integrability of this technology. We present an experimental demonstration of a waveguide-integrated DLA that was designed using a photonic inverse-design approach. By comparing the measured electron energy spectra with particle-tracking simulations, we infer a maximum energy gain of 0.915 kilo-electron volts over 30 micrometers, corresponding to an acceleration gradient of 30.5 mega-electron volts per meter. On-chip acceleration provides the possibility for a completely integrated mega-electron volt-scale DLA.

    View details for DOI 10.1126/science.aay5734

    View details for PubMedID 31896715

  • Quantum optics and nonclassical light generation NANOSCALE QUANTUM OPTICS Trivedi, R., Lukin, D., Vuckovic, J., Agio, M., DAmico, Zia, R., Toninelli, C. 2020; 204: 29-76

    View details for DOI 10.3254/ENFI200019

    View details for Web of Science ID 000661248100004

  • Generation of Tin-Vacancy Centers in Diamond via Shallow Ion Implantation and Subsequent Diamond Overgrowth Nano Letters Rugars, A. E., Lu, H., Dory, C., Sun, S., McQuade, P., Shen, Z., Melosh, N., Vučković, J. 2020; 20 (3): 1614-1619
  • Toward inverse-designed optical interconnect Skarda, J., Yang, K., Ahn, G., Guidry, M. A., Vuckovic, J., IEEE IEEE. 2020
  • Optimized quantum photonics Vuckovic, J., IEEE IEEE. 2020
  • Crux of Using the Cascaded Emission of a Three-Level Quantum Ladder System to Generate Indistinguishable Photons. Physical review letters Schöll, E. n., Schweickert, L. n., Hanschke, L. n., Zeuner, K. D., Sbresny, F. n., Lettner, T. n., Trivedi, R. n., Reindl, M. n., Covre da Silva, S. F., Trotta, R. n., Finley, J. J., Vučković, J. n., Müller, K. n., Rastelli, A. n., Zwiller, V. n., Jöns, K. D. 2020; 125 (23): 233605

    Abstract

    We investigate the degree of indistinguishability of cascaded photons emitted from a three-level quantum ladder system; in our case the biexciton-exciton cascade of semiconductor quantum dots. For the three-level quantum ladder system we theoretically demonstrate that the indistinguishability is inherently limited for both emitted photons and determined by the ratio of the lifetimes of the excited and intermediate states. We experimentally confirm this finding by comparing the quantum interference visibility of noncascaded emission and cascaded emission from the same semiconductor quantum dot. Quantum optical simulations produce very good agreement with the measurements and allow us to explore a large parameter space. Based on our model, we propose photonic structures to optimize the lifetime ratio and overcome the limited indistinguishability of cascaded photon emission from a three-level quantum ladder system.

    View details for DOI 10.1103/PhysRevLett.125.233605

    View details for PubMedID 33337175

  • Optical Parametric Oscillation Using 4H-SiC-on-Insulator Nanophotonics Guidry, M. A., Yang, K., Lukin, D. M., Yang, J., Vuckovic, J., IEEE IEEE. 2020
  • Static and Dynamic Stark Tuning of the Silicon Vacancy in Silicon Carbide White, A. D., Lukin, D. M., Guidry, M. A., Trivedi, R., Morioka, N., Babin, C., Kaiser, F., Ul-Hassan, J., Son, N., Ohshima, T., Vasireddy, P., Nasr, M., Nanni, E., Wrachtrup, J., Vuckovic, J., IEEE IEEE. 2020
  • Inverse-designed optical interconnect based on multimode photonics and mode-division multiplexing Yang, K., Skarda, J., Guidry, M. A., Dutt, A., Fan, S., Vuckovic, J., IEEE IEEE. 2020
  • Site-controlled generation of tin-vacancy centers in diamond via shallow ion implantation and diamond overgrowth Rugar, A. E., Lu, H., Dory, C., Sun, S., McQuade, P. J., Shen, Z., Melosh, N. A., Vuckovic, J., IEEE IEEE. 2020
  • Generation of Non-Classical Light Using Semiconductor Quantum Dots ADVANCED QUANTUM TECHNOLOGIES Trivedi, R., Fischer, K. A., Vuckovic, J., Mueller, K. 2020; 3 (1)
  • 4H-silicon-carbide-on-insulator for integrated quantum and nonlinear photonics NATURE PHOTONICS Lukin, D. M., Dory, C., Guidry, M. A., Yang, K., Mishra, S. D., Trivedi, R., Radulaski, M., Sun, S., Vercruysse, D., Ahn, G., Vuckovic, J. 2020; 14: 330-334
  • Point-coupling Hamiltonian for frequency-independent linear optical devices PHYSICAL REVIEW A Trivedi, R., Fischer, K., Mishra, S., Vuckovic, J. 2019; 100 (4)
  • From inverse design to imlementation of practical photonics Vuckovic, J. AMER CHEMICAL SOC. 2019
  • Nanodiamond Integration with Photonic Devices LASER & PHOTONICS REVIEWS Rodulaski, M., Zhang, J., Tzeng, Y., Lagoudakis, K. G., Ishiwata, H., Dory, C., Fischer, K. A., Kelaita, Y. A., Sun, S., Maurer, P. C., Alassaad, K., Ferro, G., Shen, Z., Melosh, N. A., Chu, S., Vuckovic, J. 2019
  • Photon Blockade in Weakly Driven Cavity Quantum Electrodynamics Systems with Many Emitters PHYSICAL REVIEW LETTERS Trivedi, R., Radulaski, M., Fischer, K. A., Fan, S., Vuckovic, J. 2019; 122 (24)
  • Analytical level set fabrication constraints for inverse design. Scientific reports Vercruysse, D., Sapra, N. V., Su, L., Trivedi, R., Vuckovic, J. 2019; 9 (1): 8999

    Abstract

    Inverse design methods produce nanophotonic devices with arbitrary geometries that show high efficiencies as well as novel functionalities. Ensuring fabricability during optimization of these unrestricted device geometries is a major challenge for these design methods. In this work, we construct a fabrication constraint penalty function for level set geometry representations of these devices. This analytical penalty function limits both the gap size and boundary curvature of a device. We incorporate this penalty in a fully automated optical design flow using a quasi-Newton optimization method. The performance of our design method is evaluated by designing a series of waveguide demultiplexers (WDM) and mode converters with various footprints and minimum feature sizes. Finally, we design and experimentally characterize three WDMs with a 80 nm, 120 nm and 160 nm feature size.

    View details for DOI 10.1038/s41598-019-45026-0

    View details for PubMedID 31227721

  • Photon Blockade in Weakly Driven Cavity Quantum Electrodynamics Systems with Many Emitters. Physical review letters Trivedi, R., Radulaski, M., Fischer, K. A., Fan, S., Vučković, J. 2019; 122 (24): 243602

    Abstract

    We use the scattering matrix formalism to analyze photon blockade in coherently driven cavity quantum electrodynamics systems with a weak drive. By approximating the weak coherent drive by an input single- and two-photon Fock state, we reduce the computational complexity of the transmission and the two-photon correlation function from exponential to polynomial in the number of emitters. This enables us to easily analyze cavity-based systems containing ∼50 quantum emitters with modest computational resources. Using this approach we study the coherence statistics of photon blockade while increasing the number of emitters for resonant and detuned multiemitter cavity quantum electrodynamics systems-we find that increasing the number of emitters worsens photon blockade in resonant systems, and improves it in detuned systems. We also analyze the impact of inhomogeneous broadening in the emitter frequencies on the photon blockade through this system.

    View details for DOI 10.1103/PhysRevLett.122.243602

    View details for PubMedID 31322381

  • High-Quality GaAs Planar Coalescence over Embedded Dielectric Microstructures Using an All-MBE Approach CRYSTAL GROWTH & DESIGN Ironside, D. J., Skipper, A. M., Leonard, T. A., Radulaski, M., Sarmiento, T., Dhingra, P., Lee, M. L., Vuckovic, J., Bank, S. R. 2019; 19 (6): 3085–91
  • Characterization of optical and spin properties of single tin-vacancy centers in diamond nanopillars PHYSICAL REVIEW B Rugar, A. E., Dory, C., Sun, S., Vuckovic, J. 2019; 99 (20)
  • Computational Bounds for Photonic Design ACS PHOTONICS Angeris, G., Vuckovic, J., Boyd, S. P. 2019; 6 (5): 1232–39
  • Inverse Design and Demonstration of Broadband Grating Couplers IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS Sapra, N. V., Vercruysse, D., Su, L., Yang, K., Skarda, J., Piggott, A. Y., Vuckovic, J. 2019; 25 (3)
  • Silicon-Compatible Fabrication of Inverse Woodpile Photonic Crystals with a Complete Band Gap ACS PHOTONICS Gupta, S., Tietz, S., Vuckovic, J., Saraswat, K. 2019; 6 (2): 368–73
  • Data-driven acceleration of photonic simulations. Scientific reports Trivedi, R. n., Su, L. n., Lu, J. n., Schubert, M. F., Vuckovic, J. n. 2019; 9 (1): 19728

    Abstract

    Designing modern photonic devices often involves traversing a large parameter space via an optimization procedure, gradient based or otherwise, and typically results in the designer performing electromagnetic simulations of a large number of correlated devices. In this paper, we investigate the possibility of accelerating electromagnetic simulations using the data collected from such correlated simulations. In particular, we present an approach to accelerate the Generalized Minimal Residual (GMRES) algorithm for the solution of frequency-domain Maxwell's equations using two machine learning models (principal component analysis and a convolutional neural network). These data-driven models are trained to predict a subspace within which the solution of the frequency-domain Maxwell's equations approximately lies. This subspace is then used for augmenting the Krylov subspace generated during the GMRES iterations, thus effectively reducing the size of the Krylov subspace and hence the number of iterations needed for solving Maxwell's equations. By training the proposed models on a dataset of wavelength-splitting gratings, we show an order of magnitude reduction (~10-50) in the number of GMRES iterations required for solving frequency-domain Maxwell's equations.

    View details for DOI 10.1038/s41598-019-56212-5

    View details for PubMedID 31871322

  • From Inverse Design to Implementation of Practical Photonics Skarda, J., Su, L., Yang, K., Vercruysse, D., Sapra, N. V., Vuckovic, J., IEEE IEEE. 2019
  • Inverse Designed Diamond Nanophotonics Dory, C., Vercruysse, D., Yang, K., Sapra, N. V., Rugar, A. E., Sun, S., Lukin, D. M., Piggott, A. Y., Zhang, J. L., Radulaski, M., Lagoudakis, K. G., Su, L., Vuckovic, J., IEEE IEEE. 2019
  • 4H-SiC-on-Insulator Platform for Quantum Photonics Lukin, D., Dory, C., Radulaski, M., Sun, S., Mishra, S., Guidry, M., Vercruysse, D., Vuckovic, J., IEEE IEEE. 2019
  • Inverse designed Fano resonance in Silicon microresonators Yang, K., Skarda, J., Cotrufo, M., Ahn, G., Alu, A., Vuckovic, J., IEEE IEEE. 2019
  • Waveguide-integrated dielectric laser particle accelerators through the inverse design of photonics Sapra, N. V., Yang, K., Vercruysse, D. F., Su, L., Vuckovic, J., IEEE IEEE. 2019
  • Inverse Designed Cavity-Waveguide Couplers Skarda, J., Yang, K., Vercruysse, D., Sapra, N. V., Su, L., Vuckovic, J., IEEE IEEE. 2019
  • Frequency Tunable Single-Photon Emission From a Single Atomic Defect in a Solid Sun, S., Zhang, J., Fischer, K. A., Burek, M. J., Dory, C., Lagoudakis, K. G., Tzeng, Y., Radulaski, M., Kelaita, Y., Safavi-Naeini, A., Shen, Z., Melosh, N. A., Chu, S., Loncar, M., Vuckovic, J., IEEE IEEE. 2019
  • Design of a tapered slot waveguide dielectric laser accelerator for sub-relativistic electrons Zhao, Z., Hughes, T. W., Tan, S., Deng, H., Sapra, N., England, R., Vuckovic, J., Harris, J. S., Byer, R. L., Fan, S., IEEE IEEE. 2019
  • Inverse-designed diamond photonics. Nature communications Dory, C. n., Vercruysse, D. n., Yang, K. Y., Sapra, N. V., Rugar, A. E., Sun, S. n., Lukin, D. M., Piggott, A. Y., Zhang, J. L., Radulaski, M. n., Lagoudakis, K. G., Su, L. n., Vučković, J. n. 2019; 10 (1): 3309

    Abstract

    Diamond hosts optically active color centers with great promise in quantum computation, networking, and sensing. Realization of such applications is contingent upon the integration of color centers into photonic circuits. However, current diamond quantum optics experiments are restricted to single devices and few quantum emitters because fabrication constraints limit device functionalities, thus precluding color center integrated photonic circuits. In this work, we utilize inverse design methods to overcome constraints of cutting-edge diamond nanofabrication methods and fabricate compact and robust diamond devices with unique specifications. Our design method leverages advanced optimization techniques to search the full parameter space for fabricable device designs. We experimentally demonstrate inverse-designed photonic free-space interfaces as well as their scalable integration with two vastly different devices: classical photonic crystal cavities and inverse-designed waveguide-splitters. The multi-device integration capability and performance of our inverse-designed diamond platform represents a critical advancement toward integrated diamond quantum optical circuits.

    View details for DOI 10.1038/s41467-019-11343-1

    View details for PubMedID 31346175

  • Spatiotemporal light control with frequency-gradient metasurfaces. Science (New York, N.Y.) Shaltout, A. M., Lagoudakis, K. G., van de Groep, J. n., Kim, S. J., Vučković, J. n., Shalaev, V. M., Brongersma, M. L. 2019; 365 (6451): 374–77

    Abstract

    The capability of on-chip wavefront modulation has the potential to revolutionize many optical device technologies. However, the realization of power-efficient phase-gradient metasurfaces that offer full-phase modulation (0 to 2π) and high operation speeds remains elusive. We present an approach to continuously steer light that is based on creating a virtual frequency-gradient metasurface by combining a passive metasurface with an advanced frequency-comb source. Spatiotemporal redirection of light naturally occurs as optical phase-fronts reorient at a speed controlled by the frequency gradient across the virtual metasurface. An experimental realization of laser beam steering with a continuously changing steering angle is demonstrated with a single metasurface over an angle of 25° in just 8 picoseconds. This work can support integrated-on-chip solutions for spatiotemporal optical control, directly affecting emerging applications such as solid-state light detection and ranging (LIDAR), three-dimensional imaging, and augmented or virtual systems.

    View details for DOI 10.1126/science.aax2357

    View details for PubMedID 31346064

  • Inverse design in nanophotonics NATURE PHOTONICS Molesky, S., Lin, Z., Piggott, A. Y., Jin, W., Vuckovic, J., Rodriguez, A. W. 2018; 12 (11): 659–70
  • Few-photon scattering and emission from low-dimensional quantum systems PHYSICAL REVIEW B Trivedi, R., Fischer, K., Xu, S., Fan, S., Vuckovic, J. 2018; 98 (14)
  • Enhanced high-harmonic generation from an all-dielectric metasurface NATURE PHYSICS Liu, H., Guo, C., Vampa, G., Zhang, J., Sarmiento, T., Xiao, M., Bucksbaum, P. H., Vuckovic, J., Fan, S., Reis, D. A. 2018; 14 (10): 1006-+
  • Quantum dot single-photon sources with ultra-low multi-photon probability NPJ QUANTUM INFORMATION Hanschke, L., Fischer, K. A., Appel, S., Lukin, D., Wierzbowski, J., Sun, S., Trivedi, R., Vuckovic, J., Finley, J. J., Mueller, K. 2018; 4
  • Design of a tapered slot waveguide dielectric laser accelerator for sub-relativistic electrons OPTICS EXPRESS Zhao, Z., Hughes, T. W., Tan, S., Deng, H., Sapra, N., England, R., Vuckovic, J., Harris, J. S., Byer, R. L., Fan, S. 2018; 26 (18): 22801–15

    Abstract

    We propose a dielectric laser accelerator design based on a tapered slot waveguide structure for sub-relativistic electron acceleration. This tapering scheme allows for straightforward tuning of the phase velocity of the accelerating field along the propagation direction, which is necessary for maintaining synchronization with electrons as their velocities increase. Furthermore, the non-resonant nature of this design allows for better tolerance to experimental errors. We also introduce a method to design this continuously tapered structure based on the eikonal approximation, and give a working example based on realistic experimental parameters.

    View details for DOI 10.1364/OE.26.022801

    View details for Web of Science ID 000443431400037

    View details for PubMedID 30184935

  • Cavity-Enhanced Raman Emission from a Single Color Center in a Solid. Physical review letters Sun, S., Zhang, J. L., Fischer, K. A., Burek, M. J., Dory, C., Lagoudakis, K. G., Tzeng, Y., Radulaski, M., Kelaita, Y., Safavi-Naeini, A., Shen, Z., Melosh, N. A., Chu, S., Loncar, M., Vuckovic, J. 2018; 121 (8): 083601

    Abstract

    We demonstrate cavity-enhanced Raman emission from a single atomic defect in a solid. Our platform is a single silicon-vacancy center in diamond coupled with a monolithic diamond photonic crystal cavity. The cavity enables an unprecedented frequency tuning range of the Raman emission (100GHz) that significantly exceeds the spectral inhomogeneity of silicon-vacancy centers in diamond nanostructures. We also show that the cavity selectively suppresses the phonon-induced spontaneous emission that degrades the efficiency of Raman photon generation. Our results pave the way towards photon-mediated many-body interactions between solid-state quantum emitters in a nanophotonic platform.

    View details for PubMedID 30192607

  • Pulsed coherent drive in the Jaynes-Cummings model PHYSICAL REVIEW A Fischer, K., Sun, S., Lukin, D., Kelaita, Y., Trivedi, R., Vuckovic, J. 2018; 98 (2)
  • Scattering into one-dimensional waveguides from a coherently-driven quantum-optical system QUANTUM Fischer, K. A., Trivedi, R., Ramasesh, V., Siddiqi, I., Vuckovic, J. 2018; 2
  • On-Chip Laser-Power Delivery System for Dielectric Laser Accelerators PHYSICAL REVIEW APPLIED Hughes, T. W., Tan, S., Zhao, Z., Sapra, N. V., Leedle, K. J., Deng, H., Miao, Y., Black, D. S., Solgaard, O., Harris, J. S., Vuckovic, J., Byer, R. L., Fan, S., England, R., Lee, Y., Qi, M. 2018; 9 (5)
  • Room temperature lasing unraveled by a strong resonance between gain and parasitic absorption in uniaxially strained germanium PHYSICAL REVIEW B Gupta, S., Nam, D., Vuckovic, J., Saraswat, K. 2018; 97 (15)
  • Dynamical modeling of pulsed two-photon interference (vol 18, 113053, 2016) NEW JOURNAL OF PHYSICS Fischer, K. A., Mueller, K., Lagoudakis, K. G., Vuckovic, J. 2018; 20
  • Quantum Properties of Dichroic Silicon Vacancies in Silicon Carbide PHYSICAL REVIEW APPLIED Nagy, R., Widmann, M., Niethammer, M., Dasari, D. R., Gerhardt, I., Soykal, O. O., Radulaski, M., Ohshima, T., Vuckovic, J., Nguyen Tien Son, Ivanov, I. G., Economou, S. E., Bonato, C., Lee, S., Wrachtrup, J. 2018; 9 (3)
  • Fully-automated optimization of grating couplers OPTICS EXPRESS Su, L., Trivedi, R., Sapra, N. V., Piggott, A. Y., Vercruysse, D., Vuckovic, J. 2018; 26 (4): 4023–34

    Abstract

    We present a gradient-based algorithm to design general 1D grating couplers without any human input from start to finish, including a choice of initial condition. We show that we can reliably design efficient couplers to have multiple functionalities in different geometries, including conventional couplers for single-polarization and single-wavelength operation, polarization-insensitive couplers, and wavelength-demultiplexing couplers. In particular, we design a fiber-to-chip blazed grating with under 0.2 dB insertion loss that requires a single etch to fabricate and no back-reflector.

    View details for DOI 10.1364/OE.26.004023

    View details for Web of Science ID 000426268500028

    View details for PubMedID 29475258

  • Inverse Design and Demonstration of a Compact on-Chip Narrowband Three-Channel Wavelength Demultiplexer ACS PHOTONICS Su, L., Piggott, A. Y., Sapra, N. V., Petykiewicz, J., Vuckovic, J. 2018; 5 (2): 301–5
  • Strongly Cavity-Enhanced Spontaneous Emission from Silicon-Vacancy Centers in Diamond NANO LETTERS Zhang, J., Sun, S., Burek, M. J., Dory, C., Tzeng, Y., Fischer, K. A., Kelaita, Y., Lardakis, K. G., Radulaski, M., Shen, Z., Melosh, N. A., Chu, S., Loncar, M., Vuckovic, J. 2018; 18 (2): 1360–65

    Abstract

    Quantum emitters are an integral component for a broad range of quantum technologies, including quantum communication, quantum repeaters, and linear optical quantum computation. Solid-state color centers are promising candidates for scalable quantum optics due to their long coherence time and small inhomogeneous broadening. However, once excited, color centers often decay through phonon-assisted processes, limiting the efficiency of single-photon generation and photon-mediated entanglement generation. Herein, we demonstrate strong enhancement of spontaneous emission rate of a single silicon-vacancy center in diamond embedded within a monolithic optical cavity, reaching a regime in which the excited-state lifetime is dominated by spontaneous emission into the cavity mode. We observe 10-fold lifetime reduction and 42-fold enhancement in emission intensity when the cavity is tuned into resonance with the optical transition of a single silicon-vacancy center, corresponding to 90% of the excited-state energy decay occurring through spontaneous emission into the cavity mode. We also demonstrate the largest coupling strength (g/2π = 4.9 ± 0.3 GHz) and cooperativity (C = 1.4) to date for color-center-based cavity quantum electrodynamics systems, bringing the system closer to the strong coupling regime.

    View details for DOI 10.1021/acs.nanolett.7b05075

    View details for Web of Science ID 000425559700102

    View details for PubMedID 29377701

  • Pulsed Rabi oscillations in quantum two-level systems: beyond the area theorem QUANTUM SCIENCE AND TECHNOLOGY Fischer, K. A., Hanschke, L., Kremser, M., Finley, J. J., Mueller, K., Vuckovic, J. 2018; 3 (1)
  • Fabrication-constrained nanophotonic inverse design SCIENTIFIC REPORTS Piggott, A. Y., Petykiewicz, J., Su, L., Vuckovic, J. 2017; 7

    Abstract

    A major difficulty in applying computational design methods to nanophotonic devices is ensuring that the resulting designs are fabricable. Here, we describe a general inverse design algorithm for nanophotonic devices that directly incorporates fabrication constraints. To demonstrate the capabilities of our method, we designed a spatial-mode demultiplexer, wavelength demultiplexer, and directional coupler. We also designed and experimentally demonstrated a compact, broadband 1 × 3 power splitter on a silicon photonics platform. The splitter has a footprint of only 3.8 × 2.5 μm, and is well within the design rules of a typical silicon photonics process, with a minimum radius of curvature of 100 nm. Averaged over the designed wavelength range of 1400-1700 nm, our splitter has a measured insertion loss of 0.642 ± 0.057 dB and power uniformity of 0.641 ± 0.054 dB.

    View details for DOI 10.1038/s41598-017-01939-2

    View details for Web of Science ID 000400959000053

    View details for PubMedID 28496126

  • On-Chip Architecture for Self-Homodyned Nonclassical Light PHYSICAL REVIEW APPLIED Fischer, K. A., Kelaita, Y. A., Sapra, N. V., Dory, C., Lagoudakis, K. G., Mueller, K., Vuckovic, J. 2017; 7 (4)
  • On-Chip Architecture for Self-Homodyned Nonclassical Light PHYSICAL REVIEW APPLIED Fischer, K. A., Kelaita, Y. A., Sapra, N. V., Dory, C., Lagoudakis, K. G., Mueller, K., Vuckovic, J. 2017; 7 (4)
  • Scalable Quantum Photonics with Single Color Centers in Silicon Carbide. Nano letters Radulaski, M., Widmann, M., Niethammer, M., Zhang, J. L., Lee, S., Rendler, T., Lagoudakis, K. G., Son, N. T., Janzén, E., Ohshima, T., Wrachtrup, J., Vuckovic, J. 2017

    Abstract

    Silicon carbide is a promising platform for single photon sources, quantum bits (qubits), and nanoscale sensors based on individual color centers. Toward this goal, we develop a scalable array of nanopillars incorporating single silicon vacancy centers in 4H-SiC, readily available for efficient interfacing with free-space objective and lensed-fibers. A commercially obtained substrate is irradiated with 2 MeV electron beams to create vacancies. Subsequent lithographic process forms 800 nm tall nanopillars with 400-1400 nm diameters. We obtain high collection efficiency of up to 22 kcounts/s optical saturation rates from a single silicon vacancy center while preserving the single photon emission and the optically induced electron-spin polarization properties. Our study demonstrates silicon carbide as a readily available platform for scalable quantum photonics architecture relying on single photon sources and qubits.

    View details for DOI 10.1021/acs.nanolett.6b05102

    View details for PubMedID 28225630

  • Vertical-Substrate MPCVD Epitaxial Nanodiamond Growth. Nano letters Tzeng, Y., Zhang, J. L., Lu, H., Ishiwata, H., Dahl, J., Carlson, R. M., Yan, H., Schreiner, P. R., Vuckovic, J., Shen, Z., Melosh, N., Chu, S. 2017

    Abstract

    Color center-containing nanodiamonds have many applications in quantum technologies and biology. Diamondoids, molecular-sized diamonds have been used as seeds in chemical vapor deposition (CVD) growth. However, optimizing growth conditions to produce high crystal quality nanodiamonds with color centers requires varying growth conditions that often leads to ad-hoc and time-consuming, one-at-a-time testing of reaction conditions. In order to rapidly explore parameter space, we developed a microwave plasma CVD technique using a vertical, rather than horizontally oriented stage-substrate geometry. With this configuration, temperature, plasma density, and atomic hydrogen density vary continuously along the vertical axis of the substrate. This variation allowed rapid identification of growth parameters that yield single crystal diamonds down to 10 nm in size and 75 nm diameter optically active center silicon-vacancy (Si-V) nanoparticles. Furthermore, this method may provide a means of incorporating a wide variety of dopants in nanodiamonds without ion irradiation damage.

    View details for DOI 10.1021/acs.nanolett.6b04543

    View details for PubMedID 28182433

  • Tuning the photon statistics of a strongly coupled nanophotonic system PHYSICAL REVIEW A Dory, C., Fischer, K. A., Mueller, K., Lagoudakis, K. G., Sarmiento, T., Rundquist, A., Zhang, J. L., Kelaita, Y., Sapra, N. V., Vuckovic, J. 2017; 95 (2)
  • Observation of Mollow Triplets with Tunable Interactions in Double Lambda Systems of Individual Hole Spins PHYSICAL REVIEW LETTERS Lagoudakis, K. G., Fischer, K. A., Sarmiento, T., McMahon, P. L., Radulaski, M., Zhang, J. L., Kelaita, Y., Dory, C., Muller, K., Vuckovic, J. 2017; 118 (1)

    Abstract

    Although individual spins in quantum dots have been studied extensively as qubits, their investigation under strong resonant driving in the scope of accessing Mollow physics is still an open question. Here, we have grown high quality positively charged quantum dots embedded in a planar microcavity that enable enhanced light-matter interactions. Under a strong magnetic field in the Voigt configuration, individual positively charged quantum dots provide a double lambda level structure. Using a combination of above-band and resonant excitation, we observe the formation of Mollow triplets on all optical transitions. We find that when the strong resonant drive power is used to tune the Mollow-triplet lines through each other, we observe anticrossings. We also demonstrate that the interaction that gives rise to the anticrossings can be controlled in strength by tuning the polarization of the resonant laser drive. Quantum-optical modeling of our system fully captures the experimentally observed spectra and provides insight on the complicated level structure that results from the strong driving of the double lambda system.

    View details for DOI 10.1103/PhysRevLett.118.013602

    View details for Web of Science ID 000391474000011

    View details for PubMedID 28106434

  • Hybrid metal-dielectric nanocavity for enhanced light-matter interactions OPTICAL MATERIALS EXPRESS Kelaita, Y. A., Fischer, K. A., Babinec, T. M., Lagoudakis, K. G., Sarmiento, T., Rundquist, A., Majumdar, A., Vuckovic, J. 2017; 7 (1): 231-239
  • Scalable Quantum Photonics with Single Color Centers in Silicon Carbide NANO LETTERS Radulaski, M., Widmann, M., Niethammer, M., Zhang, J. L., Lee, S., Rendler, T., Lagoudakis, K. G., Son, N. T., Janzén, E., Ohshima, T., Wrachtrup, J., Vuckovic, J. 2017; 17 (3): 1782-1786

    Abstract

    Silicon carbide is a promising platform for single photon sources, quantum bits (qubits), and nanoscale sensors based on individual color centers. Toward this goal, we develop a scalable array of nanopillars incorporating single silicon vacancy centers in 4H-SiC, readily available for efficient interfacing with free-space objective and lensed-fibers. A commercially obtained substrate is irradiated with 2 MeV electron beams to create vacancies. Subsequent lithographic process forms 800 nm tall nanopillars with 400-1400 nm diameters. We obtain high collection efficiency of up to 22 kcounts/s optical saturation rates from a single silicon vacancy center while preserving the single photon emission and the optically induced electron-spin polarization properties. Our study demonstrates silicon carbide as a readily available platform for scalable quantum photonics architecture relying on single photon sources and qubits.

    View details for DOI 10.1021/acs.nanolett.6b05102

  • Complete Coherent Control of Silicon-Vacancies in Diamond Nanopillars Containing Single Defect Centers Zhang, J., Lagoudakis, K. G., Tzeng, Y., Dory, C., Radulaski, M., Kelaita, Y., Fischer, K. A., Shen, Z., Melosh, N. A., Chu, S., Vuckovic, J., IEEE IEEE. 2017
  • Effects of Homodyne Interference on Jaynes-Cummings Emission for Single Photon Generation Fischer, K. A., Kelaita, Y. A., Sapra, N. V., Dory, C., Lagoudakis, K. G., Mueller, K., Vuckovic, J., IEEE IEEE. 2017
  • Scalable Quantum Photonics with Single Color Centers in Silicon Carbide Radulaski, M., Widmann, M., Niethammer, M., Zhang, J., Lee, S., Rendler, T., Lagoudakis, K. C., Nguyen Tien Son, Janzen, E., Ohshima, T., Wrachtrup, J., Vuckovic, J., IEEE IEEE. 2017
  • Nonclassical Light Generation From III-V and Group-IV Solid-State Cavity Quantum Systems ADVANCES IN ATOMIC, MOLECULAR, AND OPTICAL PHYSICS, VOL 66 Radulaski, M., Fischer, K. A., Vuckovic, J., Arimondo, E., Lin, C. C., Yelin, S. F. 2017; 66: 111–79
  • Tuning the Photon Statistics of a Strongly Coupled Nanophotonic System Dory, C., Fischer, K. A., Mueller, K., Lagoudakis, K. G., Sarmiento, T., Rundquist, A., Zhang, J. L., Kelaita, Y., Sapra, N. V., Vuckovic, J., IEEE IEEE. 2017
  • Re-excitation as a Source of Error in Single-Photon Sources Based on Quantum Two-Level Systems Fischer, K. A., Mueller, K., Lagoudakis, K. G., Vuckovic, J., IEEE IEEE. 2017
  • Ultrafast coherent manipulation of trions in site-controlled nanowire quantum dots OPTICA Lagoudakis, K. G., McMahon, P. L., Dory, C., Fischer, K. A., Mueller, K., Borish, V., Dalacu, D., Poole, P. J., Reimer, M. E., Zwiller, V., Yamamoto, Y., Vuckovic, J. 2016; 3 (12): 1430-1435
  • Self-homodyne-enabled generation of indistinguishable photons OPTICA Mueller, K., Fischer, K. A., Dory, C., Sarmiento, T., Lagoudakis, K. G., Rundquist, A., Kelaita, Y. A., Vuckovic, J. 2016; 3 (9): 931-936
  • Emission redistribution from a quantum dot-bowtie nanoantenna JOURNAL OF NANOPHOTONICS Regler, A., Schraml, K., Lyamkina, A. A., Spiegl, M., Mueller, K., Vuckovic, J., Finley, J. J., Kaniber, M. 2016; 10 (3)
  • Initialization of a spin qubit in a site-controlled nanowire quantum dot NEW JOURNAL OF PHYSICS Lagoudakis, K. G., McMahon, P. L., Fischer, K. A., Puri, S., Mueller, K., Dalacu, D., Poole, P. J., Reimer, M. E., Zwiller, V., Yamamoto, Y., Vuckovic, J. 2016; 18
  • Complete Coherent Control of a Quantum Dot Strongly Coupled to a Nanocavity SCIENTIFIC REPORTS Dory, C., Fischer, K. A., Mueller, K., Lagoudakis, K. G., Sarmiento, T., Rundquist, A., Zhang, J. L., Kelaita, Y., Vuckovic, J. 2016; 6

    Abstract

    Strongly coupled quantum dot-cavity systems provide a non-linear configuration of hybridized light-matter states with promising quantum-optical applications. Here, we investigate the coherent interaction between strong laser pulses and quantum dot-cavity polaritons. Resonant excitation of polaritonic states and their interaction with phonons allow us to observe coherent Rabi oscillations and Ramsey fringes. Furthermore, we demonstrate complete coherent control of a quantum dot-photonic crystal cavity based quantum-bit. By controlling the excitation power and phase in a two-pulse excitation scheme we achieve access to the full Bloch sphere. Quantum-optical simulations are in good agreement with our experiments and provide insight into the decoherence mechanisms.

    View details for DOI 10.1038/srep25172

    View details for Web of Science ID 000375066300001

    View details for PubMedCentralID PMC4845032

  • Direct Bandgap Light Emission from Strained Germanium Nanowires Coupled with High-Q Nanophotonic Cavities. Nano letters Petykiewicz, J., Nam, D., Sukhdeo, D. S., Gupta, S., Buckley, S., Piggott, A. Y., Vuckovic, J., Saraswat, K. C. 2016; 16 (4): 2168-2173

    Abstract

    A silicon-compatible light source is the final missing piece for completing high-speed, low-power on-chip optical interconnects. In this paper, we present a germanium nanowire light emitter that encompasses all the aspects of potential low-threshold lasers: highly strained germanium gain medium, strain-induced pseudoheterostructure, and high-Q nanophotonic cavity. Our nanowire structure presents greatly enhanced photoluminescence into cavity modes with measured quality factors of up to 2000. By varying the dimensions of the germanium nanowire, we tune the emission wavelength over more than 400 nm with a single lithography step. We find reduced optical loss in optical cavities formed with germanium under high (>2.3%) tensile strain. Our compact, high-strain cavities open up new possibilities for low-threshold germanium-based lasers for on-chip optical interconnects.

    View details for DOI 10.1021/acs.nanolett.5b03976

    View details for PubMedID 26907359

  • Design approach to integrated photonics explores entire space of fabricable devices LASER FOCUS WORLD Piggott, A. Y., Lu, J., Vuckovic, J. 2016; 52 (3): 24-?
  • Self-homodyne measurement of a dynamic Mollow triplet in the solid state NATURE PHOTONICS Fischer, K. A., Mueller, K., Rundquist, A., Sarmiento, T., Piggott, A. Y., Kelaita, Y., Dory, C., Lagoudakis, K. G., Vuckovic, J. 2016; 10 (3): 163-?
  • Hybrid Group IV Nanophotonic Structures Incorporating Diamond Silicon-Vacancy Color Centers. Nano letters Zhang, J. L., Ishiwata, H., Babinec, T. M., Radulaski, M., Müller, K., Lagoudakis, K. G., Dory, C., Dahl, J., Edgington, R., Soulière, V., Ferro, G., Fokin, A. A., Schreiner, P. R., Shen, Z. X., Melosh, N. A., Vučković, J. 2016; 16 (1): 212-7

    Abstract

    We demonstrate a new approach for engineering group IV semiconductor-based quantum photonic structures containing negatively charged silicon-vacancy (SiV(-)) color centers in diamond as quantum emitters. Hybrid diamond-SiC structures are realized by combining the growth of nano- and microdiamonds on silicon carbide (3C or 4H polytype) substrates, with the subsequent use of these diamond crystals as a hard mask for pattern transfer. SiV(-) color centers are incorporated in diamond during its synthesis from molecular diamond seeds (diamondoids), with no need for ion-implantation or annealing. We show that the same growth technique can be used to grow a diamond layer controllably doped with SiV(-) on top of a high purity bulk diamond, in which we subsequently fabricate nanopillar arrays containing high quality SiV(-) centers. Scanning confocal photoluminescence measurements reveal optically active SiV(-) lines both at room temperature and low temperature (5 K) from all fabricated structures, and, in particular, very narrow line widths and small inhomogeneous broadening of SiV(-) lines from all-diamond nanopillar arrays, which is a critical requirement for quantum computation. At low temperatures (5 K) we observe in these structures the signature typical of SiV(-) centers in bulk diamond, consistent with a double lambda. These results indicate that high quality color centers can be incorporated into nanophotonic structures synthetically with properties equivalent to those in bulk diamond, thereby opening opportunities for applications in classical and quantum information processing.

    View details for DOI 10.1021/acs.nanolett.5b03515

    View details for PubMedID 26695059

  • Hybrid Group IV Nanophotonic Structures Incorporating Diamond Silicon-Vacancy Color Centers NANO LETTERS Zhang, J. L., Ishiwata, H., Babinec, T. M., Radulaski, M., Mueller, K., Lagoudakis, K. G., Dory, C., Dahl, J., Edgington, R., Souliere, V., Ferro, G., Fokin, A. A., Schreiner, P. R., Shen, Z., Melosh, N. A., Vuckovic, J. 2016; 16 (1): 212-217

    Abstract

    We demonstrate a new approach for engineering group IV semiconductor-based quantum photonic structures containing negatively charged silicon-vacancy (SiV(-)) color centers in diamond as quantum emitters. Hybrid diamond-SiC structures are realized by combining the growth of nano- and microdiamonds on silicon carbide (3C or 4H polytype) substrates, with the subsequent use of these diamond crystals as a hard mask for pattern transfer. SiV(-) color centers are incorporated in diamond during its synthesis from molecular diamond seeds (diamondoids), with no need for ion-implantation or annealing. We show that the same growth technique can be used to grow a diamond layer controllably doped with SiV(-) on top of a high purity bulk diamond, in which we subsequently fabricate nanopillar arrays containing high quality SiV(-) centers. Scanning confocal photoluminescence measurements reveal optically active SiV(-) lines both at room temperature and low temperature (5 K) from all fabricated structures, and, in particular, very narrow line widths and small inhomogeneous broadening of SiV(-) lines from all-diamond nanopillar arrays, which is a critical requirement for quantum computation. At low temperatures (5 K) we observe in these structures the signature typical of SiV(-) centers in bulk diamond, consistent with a double lambda. These results indicate that high quality color centers can be incorporated into nanophotonic structures synthetically with properties equivalent to those in bulk diamond, thereby opening opportunities for applications in classical and quantum information processing.

    View details for DOI 10.1021/acs.nanolett.5b03515

    View details for Web of Science ID 000368322700034

  • Complete Coherent Control of a Quantum Dot Strongly Coupled to a Nanocavity. Scientific reports Dory, C., Fischer, K. A., Müller, K., Lagoudakis, K. G., Sarmiento, T., Rundquist, A., Zhang, J. L., Kelaita, Y., Vuckovic, J. 2016; 6: 25172-?

    Abstract

    Strongly coupled quantum dot-cavity systems provide a non-linear configuration of hybridized light-matter states with promising quantum-optical applications. Here, we investigate the coherent interaction between strong laser pulses and quantum dot-cavity polaritons. Resonant excitation of polaritonic states and their interaction with phonons allow us to observe coherent Rabi oscillations and Ramsey fringes. Furthermore, we demonstrate complete coherent control of a quantum dot-photonic crystal cavity based quantum-bit. By controlling the excitation power and phase in a two-pulse excitation scheme we achieve access to the full Bloch sphere. Quantum-optical simulations are in good agreement with our experiments and provide insight into the decoherence mechanisms.

    View details for DOI 10.1038/srep25172

    View details for PubMedID 27112420

    View details for PubMedCentralID PMC4845032

  • Ge microdisk with lithographically-tunable strain using CMOS-compatible process OPTICS EXPRESS Sukhdeo, D. S., Petykiewicz, J., Gupta, S., Kim, D., Woo, S., Kim, Y., Vuckovic, J., Saraswat, K. C., Nam, D. 2015; 23 (26): 33249-33254

    Abstract

    We present germanium microdisk optical resonators under a large biaxial tensile strain using a CMOS-compatible fabrication process. Biaxial tensile strain of ~0.7% is achieved by means of a stress concentration technique that allows the strain level to be customized by carefully selecting certain lithographic dimensions. The partial strain relaxation at the edges of a patterned germanium microdisk is compensated by depositing compressively stressed silicon nitride layer. Two-dimensional Raman spectroscopy measurements along with finite-element method simulations confirm a relatively homogeneous strain distribution within the final microdisk structure. Photoluminescence results show clear optical resonances due to whispering gallery modes which are in good agreement with finite-difference time-domain optical simulations. Our bandgap-customizable microdisks present a new route towards an efficient germanium light source for on-chip optical interconnects.

    View details for DOI 10.1364/OE.23.033249

    View details for Web of Science ID 000368004600037

  • Investigation of germanium quantum-well light sources OPTICS EXPRESS Fei, E. T., Chen, X., Zang, K., Huo, Y., Shambat, G., Miller, G., Liu, X., Dutt, R., Kamins, T. I., Vuckovic, J., Harris, J. S. 2015; 23 (17): 22424-22430

    Abstract

    In this paper, we report a broad investigation of the optical properties of germanium (Ge) quantum-well devices. Our simulations show a significant increase of carrier density in the Ge quantum wells. Photoluminescence (PL) measurements show the enhanced direct-bandgap radiative recombination rates due to the carrier density increase in the Ge quantum wells. Electroluminescence (EL) measurements show the temperature-dependent properties of our Ge quantum-well devices, which are in good agreement with our theoretical models. We also demonstrate the PL measurements of Ge quantum-well microdisks using tapered-fiber collection method and quantify the optical loss of the Ge quantum-well structure from the measured PL spectra for the first time.

    View details for DOI 10.1364/OE.23.022424

    View details for Web of Science ID 000362418300078

    View details for PubMedID 26368212

  • On-Chip Generation, Routing, and Detection of Resonance Fluorescence NANO LETTERS Reithmaier, G., Kaniber, M., Flassig, F., Lichtmannecker, S., Mueller, K., ANDREJEW, A., Vuckovic, J., Gross, R., Finley, J. J. 2015; 15 (8): 5208-5213

    Abstract

    Quantum optical circuits can be used to generate, manipulate, and exploit nonclassical states of light to push semiconductor based photonic information technologies to the quantum limit. Here, we report the on-chip generation of quantum light from individual, resonantly excited self-assembled InGaAs quantum dots, efficient routing over length scales ≥1 mm via GaAs ridge waveguides, and in situ detection using evanescently coupled integrated NbN superconducting single photon detectors fabricated on the same chip. By temporally filtering the time-resolved luminescence signal stemming from single quantum dots we use the quantum optical circuit to perform time-resolved excitation spectroscopy on single dots and demonstrate resonance fluorescence with a line-width of 10 ± 1 μeV; key elements needed for the use of single photons in prototypical quantum photonic circuits.

    View details for DOI 10.1021/acs.nanolett.5b01444

    View details for Web of Science ID 000359613700053

    View details for PubMedID 26102603

  • Ultrafast Polariton-Phonon Dynamics of Strongly Coupled Quantum Dot-Nanocavity Systems PHYSICAL REVIEW X Mueller, K., Fischer, K. A., Rundquist, A., Dory, C., Lagoudakis, K. G., Sarmiento, T., Kelaita, Y. A., Borish, V., Vuckovic, J. 2015; 5 (3)
  • Coherent Generation of Nonclassical Light on Chip via Detuned Photon Blockade. Physical review letters Müller, K., Rundquist, A., Fischer, K. A., Sarmiento, T., Lagoudakis, K. G., Kelaita, Y. A., Sánchez Muñoz, C., del Valle, E., Laussy, F. P., Vuckovic, J. 2015; 114 (23): 233601-?

    Abstract

    The on-chip generation of nonclassical states of light is a key requirement for future optical quantum hardware. In solid-state cavity quantum electrodynamics, such nonclassical light can be generated from self-assembled quantum dots strongly coupled to photonic crystal cavities. Their anharmonic strong light-matter interaction results in large optical nonlinearities at the single photon level, where the admission of a single photon into the cavity may enhance (photon tunneling) or diminish (photon blockade) the probability for a second photon to enter the cavity. Here, we demonstrate that detuning the cavity and quantum-dot resonances enables the generation of high-purity nonclassical light from strongly coupled systems. For specific detunings we show that not only the purity but also the efficiency of single-photon generation increases significantly, making high-quality single-photon generation by photon blockade possible with current state-of-the-art samples.

    View details for PubMedID 26196801

  • Coherent Generation of Nonclassical Light on Chip via Detuned Photon Blockade PHYSICAL REVIEW LETTERS Mueller, K., Rundquist, A., Fischer, K. A., Sarmiento, T., Lagoudakis, K. G., Kelaita, Y. A., Sanchez Munoz, C., del Valle, E., Laussy, F. P., Vuckovic, J. 2015; 114 (23)

    Abstract

    The on-chip generation of nonclassical states of light is a key requirement for future optical quantum hardware. In solid-state cavity quantum electrodynamics, such nonclassical light can be generated from self-assembled quantum dots strongly coupled to photonic crystal cavities. Their anharmonic strong light-matter interaction results in large optical nonlinearities at the single photon level, where the admission of a single photon into the cavity may enhance (photon tunneling) or diminish (photon blockade) the probability for a second photon to enter the cavity. Here, we demonstrate that detuning the cavity and quantum-dot resonances enables the generation of high-purity nonclassical light from strongly coupled systems. For specific detunings we show that not only the purity but also the efficiency of single-photon generation increases significantly, making high-quality single-photon generation by photon blockade possible with current state-of-the-art samples.

    View details for DOI 10.1103/PhysRevLett.114.233601

    View details for Web of Science ID 000355727300003

  • Inverse design and demonstration of a compact and broadband on-chip wavelength demultiplexer NATURE PHOTONICS Piggott, A. Y., Lu, J., Lagoudakis, K. G., Petykiewicz, J., Babinec, T. M., Vuckovic, J. 2015; 9 (6): 374-?
  • Monolayer semiconductor nanocavity lasers with ultralow thresholds. Nature Wu, S., Buckley, S., Schaibley, J. R., Feng, L., Yan, J., Mandrus, D. G., Hatami, F., Yao, W., Vuckovic, J., Majumdar, A., Xu, X. 2015; 520 (7545): 69-72

    Abstract

    Engineering the electromagnetic environment of a nanometre-scale light emitter by use of a photonic cavity can significantly enhance its spontaneous emission rate, through cavity quantum electrodynamics in the Purcell regime. This effect can greatly reduce the lasing threshold of the emitter, providing a low-threshold laser system with small footprint, low power consumption and ultrafast modulation. An ultralow-threshold nanoscale laser has been successfully developed by embedding quantum dots into a photonic crystal cavity (PCC). However, several challenges impede the practical application of this architecture, including the random positions and compositional fluctuations of the dots, extreme difficulty in current injection, and lack of compatibility with electronic circuits. Here we report a new lasing strategy: an atomically thin crystalline semiconductor--that is, a tungsten diselenide monolayer--is non-destructively and deterministically introduced as a gain medium at the surface of a pre-fabricated PCC. A continuous-wave nanolaser operating in the visible regime is thereby achieved with an optical pumping threshold as low as 27 nanowatts at 130 kelvin, similar to the value achieved in quantum-dot PCC lasers. The key to the lasing action lies in the monolayer nature of the gain medium, which confines direct-gap excitons to within one nanometre of the PCC surface. The surface-gain geometry gives unprecedented accessibility and hence the ability to tailor gain properties via external controls such as electrostatic gating and current injection, enabling electrically pumped operation. Our scheme is scalable and compatible with integrated photonics for on-chip optical communication technologies.

    View details for DOI 10.1038/nature14290

    View details for PubMedID 25778703

  • Monolayer semiconductor nanocavity lasers with ultralow thresholds NATURE Wu, S., Buckley, S., Schaibley, J. R., Feng, L., Yan, J., Mandrus, D. G., Hatami, F., Yao, W., Vuckovic, J., Majumdar, A., Xu, X. 2015; 520 (7545): 69-U142

    Abstract

    Engineering the electromagnetic environment of a nanometre-scale light emitter by use of a photonic cavity can significantly enhance its spontaneous emission rate, through cavity quantum electrodynamics in the Purcell regime. This effect can greatly reduce the lasing threshold of the emitter, providing a low-threshold laser system with small footprint, low power consumption and ultrafast modulation. An ultralow-threshold nanoscale laser has been successfully developed by embedding quantum dots into a photonic crystal cavity (PCC). However, several challenges impede the practical application of this architecture, including the random positions and compositional fluctuations of the dots, extreme difficulty in current injection, and lack of compatibility with electronic circuits. Here we report a new lasing strategy: an atomically thin crystalline semiconductor--that is, a tungsten diselenide monolayer--is non-destructively and deterministically introduced as a gain medium at the surface of a pre-fabricated PCC. A continuous-wave nanolaser operating in the visible regime is thereby achieved with an optical pumping threshold as low as 27 nanowatts at 130 kelvin, similar to the value achieved in quantum-dot PCC lasers. The key to the lasing action lies in the monolayer nature of the gain medium, which confines direct-gap excitons to within one nanometre of the PCC surface. The surface-gain geometry gives unprecedented accessibility and hence the ability to tailor gain properties via external controls such as electrostatic gating and current injection, enabling electrically pumped operation. Our scheme is scalable and compatible with integrated photonics for on-chip optical communication technologies.

    View details for DOI 10.1038/nature14290

    View details for Web of Science ID 000352027700038

    View details for PubMedID 25778703

  • Visible Photoluminescence from Cubic (3C) Silicon Carbide Microdisks Coupled to High Quality Whispering Gallery Modes ACS PHOTONICS Radulaski, M., Babinec, T. M., Mueller, K., Lagoudakis, K. G., Zhang, J. L., Buckley, S., Kelaita, Y. A., Alassaad, K., Ferro, G., Vuckovic, J. 2015; 2 (1): 14-19

    View details for DOI 10.1021/ph500384p

    View details for Web of Science ID 000348339400004

  • Inverse design and implementation of a wavelength demultiplexing grating coupler SCIENTIFIC REPORTS Piggott, A. Y., Lu, J., Babinec, T. M., Lagoudakis, K. G., Petykiewicz, J., Vuckovic, J. 2014; 4

    Abstract

    Nanophotonics has emerged as a powerful tool for manipulating light on chips. Almost all of today's devices, however, have been designed using slow and ineffective brute-force search methods, leading in many cases to limited device performance. In this article, we provide a complete demonstration of our recently proposed inverse design technique, wherein the user specifies design constraints in the form of target fields rather than a dielectric constant profile, and in particular we use this method to demonstrate a new demultiplexing grating. The novel grating, which has not been developed using conventional techniques, accepts a vertical-incident Gaussian beam from a free-space and separates O-band (1300 nm) and C-band (1550 nm) light into separate waveguides. This inverse design concept is simple and extendable to a broad class of highly compact devices including frequency filters, mode converters, and spatial mode multiplexers.

    View details for DOI 10.1038/srep07210

    View details for Web of Science ID 000346252000002

    View details for PubMedID 25428549

    View details for PubMedCentralID PMC4245525

  • Multimode nanobeam cavities for nonlinear optics: high quality resonances separated by an octave OPTICS EXPRESS Buckley, S., Radulaski, M., Zhang, J. L., Petykiewicz, J., Biermann, K., Vuckovic, J. 2014; 22 (22): 26498-26509
  • Multimode nanobeam cavities for nonlinear optics: high quality resonances separated by an octave. Optics express Buckley, S., Radulaski, M., Zhang, J. L., Petykiewicz, J., Biermann, K., Vuckovic, J. 2014; 22 (22): 26498-26509

    Abstract

    We demonstrate the design, fabrication and characterization of nanobeam cavities with multiple higher order modes. Designs with two high Q modes with frequency separations of an octave are introduced, and we fabricate such cavities exhibiting resonances with wavelength separations of up to 740 nm.

    View details for DOI 10.1364/OE.22.026498

    View details for PubMedID 25401801

  • Nonlinear frequency conversion using high-quality modes in GaAs nanobeam cavities OPTICS LETTERS Buckley, S., Radulaski, M., Zhang, J. L., Petykiewicz, J., Biermann, K., Vuckovic, J. 2014; 39 (19): 5673-5676
  • Nonlinear frequency conversion using high-quality modes in GaAs nanobeam cavities. Optics letters Buckley, S., Radulaski, M., Zhang, J. L., Petykiewicz, J., Biermann, K., Vuckovic, J. 2014; 39 (19): 5673-5676

    Abstract

    We demonstrate the design, fabrication, and characterization of nanobeam photonic crystal cavities in (111)-GaAs with multiple high-Q modes, with large frequency separations (up to 740 nm in experiment, i.e., a factor of 1.5 and up to an octave in theory). Such structures are crucial for efficient implementation of nonlinear frequency conversion. Here, we employ them to demonstrate sum-frequency generation from 1300 and 1950 nm to 780 nm. These wavelengths are particularly interesting for quantum frequency conversion between Si vacancy centers in diamond and the fiber-optic network.

    View details for DOI 10.1364/OL.39.005673

    View details for PubMedID 25360956

  • Hole-spin pumping and repumping in a p-type delta-doped InAs quantum dot PHYSICAL REVIEW B Lagoudakis, K. G., Fischer, K. A., Sarmiento, T., Mueller, K., Vuckovic, J. 2014; 90 (12)
  • Nonclassical higher-order photon correlations with a quantum dot strongly coupled to a photonic-crystal nanocavity PHYSICAL REVIEW A Rundquist, A., Bajcsy, M., Majumdar, A., Sarmiento, T., Fischer, K., Lagoudakis, K. G., Buckley, S., Piggott, A. Y., Vuckovic, J. 2014; 90 (2)
  • A carrier relaxation bottleneck probed in single InGaAs quantum dots using integrated superconducting single photon detectors APPLIED PHYSICS LETTERS Reithmaier, G., Flassig, F., HASCH, P., Lichtmannecker, S., Mueller, K., Vuckovic, J., Gross, R., Kaniber, M., Finley, J. J. 2014; 105 (8)

    View details for DOI 10.1063/1.4894239

    View details for Web of Science ID 000342753500008

  • Photo-oxidative tuning of individual and coupled GaAs photonic crystal cavities OPTICS EXPRESS Piggott, A. Y., Lagoudakis, K. G., Sarmiento, T., Bajcsy, M., Shambat, G., Vuckovic, J. 2014; 22 (12): 15017-15023

    Abstract

    We demonstrate a photo-induced oxidation technique for tuning GaAs photonic crystal cavities using a low-power 390 nm pulsed laser. The laser oxidizes a small (< 1 μm) diameter spot, reducing the local index of refraction and blueshifting the cavity. The tuning progress can be actively monitored in real time. We also demonstrate tuning an individual cavity within a pair of proximity-coupled cavities, showing that this method can be used to tune individual cavities in a cavity network, with applications in quantum simulations and quantum computing.

    View details for DOI 10.1364/OE.22.015017

    View details for Web of Science ID 000338044300093

  • Photo-oxidative tuning of individual and coupled GaAs photonic crystal cavities. Optics express Piggott, A. Y., Lagoudakis, K. G., Sarmiento, T., Bajcsy, M., Shambat, G., Vuckovic, J. 2014; 22 (12): 15017-15023

    Abstract

    We demonstrate a photo-induced oxidation technique for tuning GaAs photonic crystal cavities using a low-power 390 nm pulsed laser. The laser oxidizes a small (< 1 μm) diameter spot, reducing the local index of refraction and blueshifting the cavity. The tuning progress can be actively monitored in real time. We also demonstrate tuning an individual cavity within a pair of proximity-coupled cavities, showing that this method can be used to tune individual cavities in a cavity network, with applications in quantum simulations and quantum computing.

    View details for DOI 10.1364/OE.22.015017

    View details for PubMedID 24977595

  • Second-Harmonic Generation in GaAs Photonic Crystal Cavities in (111)B and (001) Crystal Orientations ACS PHOTONICS Buckley, S., Radulaski, M., Petykiewicz, J., Lagoudakis, K. G., Kang, J., Brongersma, M., Biermann, K., Vuckovic, J. 2014; 1 (6): 516-523

    View details for DOI 10.1021/ph500054u

    View details for Web of Science ID 000337720300007

  • Control of two-dimensional excitonic light emission via photonic crystal 2D MATERIALS Wu, S., Buckley, S., Jones, A. M., Ross, J. S., Ghimire, N. J., Yan, J., Mandrus, D. G., Yao, W., Hatami, F., Vuckovic, J., Majumdar, A., Xu, X. 2014; 1 (1)
  • A direct measurement of the electronic structure of Si nanocrystals and its effect on optoelectronic properties JOURNAL OF APPLIED PHYSICS Mustafeez, W., Majumdar, A., Vuckovic, J., Salleo, A. 2014; 115 (10)

    View details for DOI 10.1063/1.4868299

    View details for Web of Science ID 000333083100024

  • Nanophotonic devices: from nanolasers to single cell probes Vuckovic, J. 2014
  • Graphene for Tunable Nanophotonic Resonators IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS Majumdar, A., Kim, J., Vuckovic, J., Wang, F. 2014; 20 (1)
  • Inverse design and implementation of a wavelength demultiplexing grating coupler. Scientific reports Piggott, A. Y., Lu, J., Babinec, T. M., Lagoudakis, K. G., Petykiewicz, J., Vuckovic, J. 2014; 4: 7210-?

    Abstract

    Nanophotonics has emerged as a powerful tool for manipulating light on chips. Almost all of today's devices, however, have been designed using slow and ineffective brute-force search methods, leading in many cases to limited device performance. In this article, we provide a complete demonstration of our recently proposed inverse design technique, wherein the user specifies design constraints in the form of target fields rather than a dielectric constant profile, and in particular we use this method to demonstrate a new demultiplexing grating. The novel grating, which has not been developed using conventional techniques, accepts a vertical-incident Gaussian beam from a free-space and separates O-band (1300 nm) and C-band (1550 nm) light into separate waveguides. This inverse design concept is simple and extendable to a broad class of highly compact devices including frequency filters, mode converters, and spatial mode multiplexers.

    View details for DOI 10.1038/srep07210

    View details for PubMedID 25428549

    View details for PubMedCentralID PMC4245525

  • Symposium on Quantum Dot and Nanostructures, Photonics West Vuckovic, J. 2014
  • the Annual Meeting of the Atomic, Molecular and Optical Physics (AMO) section of the Dutch Physical Society, Amsterdam, Netherlands Vuckovic, J. 2014
  • Single Cell Nanocavity Probes Vuckovic, J. 2014
  • Quantum and nonlinear optics at the single photon level with quantum dots in optical nanocavities Vuckovic, J. 2014
  • Quantum dots in optical nanocavities: physics and applications Innovative Resonator-Emitter Coupled Systems, Frontiers in Optics/Laser Science, Tucson, AZ Vuckovic, J. 2014
  • Graphene for Tunable Nanophotonic Resonators IEEE Journal of Selected Topics in Quantum Electronics Majumdar, A., Kim, J., Vuckovic, J., Wang, F. 2014; 20 (1)
  • Physics Colloquium Vuckovic, J. 2014
  • Cavity enhanced light-matter interactions Babinec, T., Vuckovic, J. 2014
  • Photonic crystal cavities in cubic (3C) polytype silicon carbide films OPTICS EXPRESS Radulaski, M., Babinec, T. M., Buckley, S., Rundquist, A., Provine, J., Alassaad, K., Ferro, G., Vuckovic, J. 2013; 21 (26): 32623-32629

    Abstract

    We present the design, fabrication, and characterization of high quality factor (Q ~103) and small mode volume (V ~0.75 (λ/n)3) planar photonic crystal cavities from cubic (3C) thin films (thickness ~200 nm) of silicon carbide (SiC) grown epitaxially on a silicon substrate. We demonstrate cavity resonances across the telecommunications band, with wavelengths from 1.25 - 1.6 μm. Finally, we discuss possible applications in nonlinear optics, optical interconnects, and quantum information science.

    View details for DOI 10.1364/OE.21.032623

    View details for Web of Science ID 000329205200088

    View details for PubMedID 24514856

  • Deterministically charged quantum dots in photonic crystal nanoresonators for efficient spin-photon interfaces NEW JOURNAL OF PHYSICS Lagoudakis, K. G., Fischer, K., Sarmiento, T., Majumdar, A., Rundquist, A., Lu, J., Bajcsy, M., Vuckovic, J. 2013; 15
  • Second harmonic generation in photonic crystal cavities in (111)-oriented GaAs APPLIED PHYSICS LETTERS Buckley, S., Radulaski, M., Biermann, K., Vuckovic, J. 2013; 103 (21)

    View details for DOI 10.1063/1.4833545

    View details for Web of Science ID 000327590400017

  • Single-cell photonic nanocavity probes. Nano letters Shambat, G., Kothapalli, S., Provine, J., Sarmiento, T., Harris, J., Gambhir, S. S., Vuckovic, J. 2013; 13 (11): 4999-5005

    Abstract

    In this report, we demonstrate for the first time photonic nanocavities operating inside single biological cells. Here we develop a nanobeam photonic crystal (PC) cavity as an advanced cellular nanoprobe, active in nature, and configurable to provide a multitude of actions for both intracellular sensing and control. Our semiconductor nanocavity probes emit photoluminescence (PL) from embedded quantum dots (QD) and sustain high quality resonant photonic modes inside cells. The probes are shown to be minimally cytotoxic to cells from viability studies, and the beams can be loaded in cells and tracked for days at a time, with cells undergoing regular division with the beams. We present in vitro label-free protein sensing with our probes to detect streptavidin as a path towards real-time biomarker and biomolecule detection inside single cells. The results of this work will enable new areas of research merging the strengths of photonic nanocavities with fundamental cell biology.

    View details for DOI 10.1021/nl304602d

    View details for PubMedID 23387382

  • Proposed coupling of an electron spin in a semiconductor quantum dot to a nanosize optical cavity. Physical review letters Majumdar, A., Kaer, P., Bajcsy, M., Kim, E. D., Lagoudakis, K. G., Rundquist, A., Vuckovic, J. 2013; 111 (2): 027402-?

    Abstract

    We propose a scheme to efficiently couple a single quantum dot electron spin to an optical nano-cavity, which enables us to simultaneously benefit from a cavity as an efficient photonic interface, as well as to perform high fidelity (nearly 100%) spin initialization and manipulation achievable in bulk semiconductors. Moreover, the presence of the cavity speeds up the spin initialization process beyond the GHz range.

    View details for PubMedID 23889441

  • Strain-induced pseudoheterostructure nanowires confining carriers at room temperature with nanoscale-tunable band profiles. Nano letters Nam, D., Sukhdeo, D. S., Kang, J., Petykiewicz, J., Lee, J. H., Jung, W. S., Vuckovic, J., Brongersma, M. L., Saraswat, K. C. 2013; 13 (7): 3118-3123

    Abstract

    Semiconductor heterostructures play a vital role in photonics and electronics. They are typically realized by growing layers of different materials, complicating fabrication and limiting the number of unique heterojunctions on a wafer. In this Letter, we present single-material nanowires which behave exactly like traditional heterostructures. These pseudoheterostructures have electronic band profiles that are custom-designed at the nanoscale by strain engineering. Since the band profile depends only on the nanowire geometry with this approach, arbitrary band profiles can be individually tailored at the nanoscale using existing nanolithography. We report the first experimental observations of spatially confined, greatly enhanced (>200×), and wavelength-shifted (>500 nm) emission from strain-induced potential wells that facilitate effective carrier collection at room temperature. This work represents a fundamentally new paradigm for creating nanoscale devices with full heterostructure behavior in photonics and electronics.

    View details for DOI 10.1021/nl401042n

    View details for PubMedID 23758608

  • Proposed Coupling of an Electron Spin in a Semiconductor Quantum Dot to a Nanosize Optical Cavity PHYSICAL REVIEW LETTERS Majumdar, A., Kaer, P., Bajcsy, M., Kim, E. D., Lagoudakis, K. G., Rundquist, A., Vuckovic, J. 2013; 111 (2)
  • Strain-Induced Pseudoheterostructure Nanowires Confining Carriers at Room Temperature with Nanoscale-Tunable Band Profiles NANO LETTERS Nam, D., Sukhdeo, D. S., Kang, J., Petykiewicz, J., Lee, J. H., Jung, W. S., Vuckovic, J., Brongersma, M. L., Saraswat, K. C. 2013; 13 (7): 3118-3123

    Abstract

    Semiconductor heterostructures play a vital role in photonics and electronics. They are typically realized by growing layers of different materials, complicating fabrication and limiting the number of unique heterojunctions on a wafer. In this Letter, we present single-material nanowires which behave exactly like traditional heterostructures. These pseudoheterostructures have electronic band profiles that are custom-designed at the nanoscale by strain engineering. Since the band profile depends only on the nanowire geometry with this approach, arbitrary band profiles can be individually tailored at the nanoscale using existing nanolithography. We report the first experimental observations of spatially confined, greatly enhanced (>200×), and wavelength-shifted (>500 nm) emission from strain-induced potential wells that facilitate effective carrier collection at room temperature. This work represents a fundamentally new paradigm for creating nanoscale devices with full heterostructure behavior in photonics and electronics.

    View details for DOI 10.1021/nl401042n

    View details for Web of Science ID 000321884300019

  • Nanophotonic computational design OPTICS EXPRESS Lu, J., Vuckovic, J. 2013; 21 (11): 13351-13367

    Abstract

    In contrast to designing nanophotonic devices by tuning a handful of device parameters, we have developed a computational method which utilizes the full parameter space to design linear nanophotonic devices. We show that our method may indeed be capable of designing any linear nanophotonic device by demonstrating designed structures which are fully three-dimensional and multi-modal, exhibit novel functionality, have very compact footprints, exhibit high efficiency, and are manufacturable. In addition, we also demonstrate the ability to produce structures which are strongly robust to wavelength and temperature shift, as well as fabrication error. Critically, we show that our method does not require the user to be a nanophotonic expert or to perform any manual tuning. Instead, we are able to design devices solely based on the user's desired performance specification for the device.

    View details for DOI 10.1364/OE.21.013351

    View details for Web of Science ID 000319814900038

    View details for PubMedID 23736587

  • Focus on integrated quantum optics NEW JOURNAL OF PHYSICS O'Brien, J., Patton, B., Sasaki, M., Vuckovic, J. 2013; 15
  • Photon blockade with a four-level quantum emitter coupled to a photonic-crystal nanocavity NEW JOURNAL OF PHYSICS Bajcsy, M., Majumdar, A., Rundquist, A., Vuckovic, J. 2013; 15
  • Electrical Control of Silicon Photonic Crystal Cavity by Graphene NANO LETTERS Majumdar, A., Kim, J., Vuckovic, J., Wang, F. 2013; 13 (2): 515-518

    Abstract

    The efficient conversion of an electrical signal to an optical signal in nanophotonics enables solid state integration of electronics and photonics. The combination of graphene with photonic crystals is promising for electro-optic modulation. In this paper, we demonstrate that by electrostatic gating a single layer of graphene on top of a photonic crystal cavity, the cavity resonance can be changed significantly. A ~2 nm change in the cavity resonance line width and almost 400% (6 dB) change in resonance reflectivity is observed. In addition, our analysis shows that a graphene-photonic crystal device can potentially be useful for a high speed and low power absorptive and refractive modulator, while maintaining a small physical footprint.

    View details for DOI 10.1021/nl3039212

    View details for Web of Science ID 000315079500031

    View details for PubMedID 23286896

  • Ultra-low power all-optical switching with a single quantum dot in a photonic-crystal cavity Conference on Advances in Photonics of Quantum Computing, Memory, and Communication VI Bajcsy, M., Majumdar, A., Englund, D., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2013

    View details for DOI 10.1117/12.2002552

    View details for Web of Science ID 000322965700013

  • Objective-First Nanophotonic Design NUMERICAL METHODS FOR METAMATERIAL DESIGN Lu, J., Vuckovic, J. 2013; 127: 147-173
  • Seminar at the University of Nis Vuckovic, J. 2013
  • Knowledge at Noon Vuckovic, J. 2013
  • Electrically controlled photonic crystal nanocavity sources and modulators Petykiewicz, J., Shambat, G., Ellis, B., Sarmiento, T., Piggott, A., Vuckovic, J. 2013
  • Zeeman Splitting of Deterministically Charged Quantum Dots Coupled to Photonic Crystal Nanoresonators Lagoudakis, Konstantinos, G., Fischer, K., Majumdar, A., Rundquist, A., Bajcsy, M., Sarmiento, T., Vuckovic, J. 2013
  • Direct Bandgap Germanium Nanowires Inferred from 5.0% Uniaxial Tensile Strain Sukhdeo, David, S., Nam, D., Kang, J., Petykiewicz, J., Lee, J. H., Jung, W. S., Vuckovic, J. 2013
  • Control of Two-Dimensional Excitonic Light Emission via Photonic Crystal Wu, S., Buckley, S., Jones, Aaron, M., Ross, Jason, S., Ghimire, Nirmal, J., Yan, J., Vuckovic, J. 2013
  • Electrically controlled photonic crystal nanocavity sources and modulators IEEE-Photonics-Society Summer Topical Meeting Petykiewicz, J., Shambat, G., Ellis, B., Sarmiento, T., Piggott, A., Vuckovic, J. IEEE. 2013: 38–39
  • Neils Bohr Institute Seminar Vuckovic, J. 2013
  • Physics colloquium, EPFL, Lausanne Vuckovic, J. 2013
  • Alexander Von Humboldt Lecture Vuckovic, J. 2013
  • Ecole de Physique des Houches, Quantum Optics and Nanophotonics Summer School Vuckovic, J. 2013
  • Quantum dots in optical nanocavities: from cavity QED to device applications Vuckovic, J. 2013
  • Nonclassical light sources based on quantum dots in optical nanocavities Vuckovic, J., Majumdar, A., Bajcsy, M., Rundquist, A. 2013
  • SemiconNano2013 Sarmiento, T., Vuckovic, J. 2013
  • Quantum dots in photonic crystal cavities: from quantum optics to nano-lasers and intra-cellular probes Vuckovic, J. 2013
  • Quantum Nano-Optics Vuckovic, J. 2013
  • Correlated photons in quantum dot-cavity quantum electrodynamics: beyond the single cavity Majumdar, A., Rundquist, A., Bajcsy, M., Vuckovic, J. 2013
  • Electrical Control of Photonic Crystal Cavity by Graphene Majumdar, A., Kim, J., Wang, F., Vuckovic, J. 2013
  • Third-order photon correlations from a quantum dot coupled to a photonic-crystal nanocavity Bajcsy, M., Rundquist, A., Majumdar, A., Sarmiento, T., Lagoudakis, Konstantinos, G., Vuckovic, J. 2013
  • Photonic crystal coupled cavity arrays for quantum simulation Rundquist, A., Majumdar, A., Bajcsy, M., Dasika, Vaishno, D., Bank, Seth, R., Vuckovic, J. 2013
  • Single-cell Photonic Nanocavity Probes Shambat, G., Kothapalli, S. R., Provine, J., Sarmiento, T., Harris, J., Gambhir, S. S., Vuckovic, J. 2013
  • Hybrid metal/dielectric nanocavity for ultrafast quantum dot-optical field interaction Fischer, Kevin, A., Babinec, Thomas, M., Kelaita, Yousif, A., Lagoudakis, Konstantinos, G., Sarmiento, T., Majumdar, A., Vuckovic, J. 2013
  • Photonic Crystal Cavities in Cubic (3C) Silicon Carbide Radulaski, M., Babinec, Thomas, M., Buckley, S., Rundquist, A., Provine, J., Alassaad, K., Vuckovic, J. 2013
  • SPIE Photonics West Petykiewicz, J., Vuckovic, J. 2013
  • SPIE Photonics West Buckley, S., Vuckovic, J. 2013
  • Cavity QED with quantum dots in photonic crystals Vuckovic, J. 2013
  • Special Symposium on Nanophotonics and Metamaterials Ideas for Telecoms and Data Processing Buckley, S., Vuckovic, J. 2013
  • Optical nanocavities: from light sources to single cell probes Vuckovic, J. 2013
  • Strain-Induced Homo-Compositional Heterostructure Nanowires Confining Carriers at Room Temperature with Nanoscale-Tunable Band Profiles Nano-Letters, ASAP Nam, D., Sukhdeo, D., Kang, J., Petykiewicz, J., Lee, J. H., Jung, W. S., Vuckovic, J. 2013
  • Photonic Crystal Cavities in Cubic Polytype Silicon Carbide Films Optics Express Radulaski, M., Babinec, Thomas, M., Buckley, S., Rundquist, A., Provine, J., Alassaad, K., Vuckovic, J. 2013; 21 (26): 32623-32629
  • Optical nanocavities with quantum dots: from nano-lasers to bio-probes Vuckovic, J. 2013
  • Schottky Seminar Vuckovic, J. 2013
  • Seminar at Institute for Physics Vuckovic, J. 2013
  • Colloquium at the University of Belgrade Vuckovic, J. 2013
  • Nano-Cavity Quantum Electrodynamics and Applications Vuckovic, J. 2013
  • SPIE Photonics West Bajcsy, M., Vuckovic, J. 2013
  • Editorial of the Focus Issue on Integrated Quantum optics New Journal of Physics, Feb. O’Brien, J., Patton, B., Sasaki, M., Vuckovic, J. 2013
  • Second Harmonic Generation in Photonic Crystal Cavities in [111]-Oriented GaAs Applied Physics Letters Buckley, S., Radulaski, M., Biermann, K., Vuckovic, J. 2013; 103
  • Deterministically Charged Quantum Dots in Photonic Crystal Nanoresonators for Efficient Spin-Photon Interfaces New Journal of Physics Lagoudakis, Konstantinos, G., Fischer, K., Sarmiento, T., Majumdar, A., Rundquist, A., Lu, J., Vuckovic, J. 2013; 15
  • Nonlinear Optics in (111)-GaAs Photonic Crystal Cavities Radulaski, M., Buckley, S., Biermann, K., Vuckovic, J. 2013
  • Single-cell photonic nanocavity probes Nano-Letters Shambat, G., Kothapalli, S. R., Provine, J., Sarmiento, T., Harris, J., Gambhir, S. S., Vuckovic, J. 2013; 13 (11): 4999-5005
  • Electrical design for lateral junction photonic crystal lasers Conference on Physics and Simulation of Optoelectronic Devices XXI Petykiewicz, J., Shambat, G., Ellis, B., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2013

    View details for DOI 10.1117/12.2008775

    View details for Web of Science ID 000325433900024

  • Engineered quantum dot single-photon sources REPORTS ON PROGRESS IN PHYSICS Buckley, S., Rivoire, K., Vuckovic, J. 2012; 75 (12)

    Abstract

    Fast, high efficiency and low error single-photon sources are required for the implementation of a number of quantum information processing applications. The fastest triggered single-photon sources to date have been demonstrated using epitaxially grown semiconductor quantum dots (QDs), which can be conveniently integrated with optical microcavities. Recent advances in QD technology, including demonstrations of high temperature and telecommunications wavelength single-photon emission, have made QD single-photon sources more practical. Here we discuss the applications of single-photon sources and their various requirements, before reviewing the progress made on a QD platform in meeting these requirements.

    View details for DOI 10.1088/0034-4885/75/12/126503

    View details for Web of Science ID 000311423200006

    View details for PubMedID 23144123

  • Design and analysis of photonic crystal coupled cavity arrays for quantum simulation PHYSICAL REVIEW B Majumdar, A., Rundquist, A., Bajcsy, M., Dasika, V. D., Bank, S. R., Vuckovic, J. 2012; 86 (19)
  • All Optical Switching With a Single Quantum Dot Strongly Coupled to a Photonic Crystal Cavity IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS Majumdar, A., Bajcsy, M., Englund, D., Vuckovic, J. 2012; 18 (6): 1812-1817
  • Electrically Driven Photonic Crystal Nanocavity Devices IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS Shambat, G., Ellis, B., Petykiewicz, J., Mayer, M. A., Majumdar, A., Sarmiento, T., Harris, J. S., Haller, E. E., Vuckovic, J. 2012; 18 (6): 1700-1710
  • Introduction to the Issue on Quantum and Nanoscale Photonics IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS Vuckovic, J., Benson, O., O'Brien, J., Loncar, M. 2012; 18 (6): 1627-1628
  • Quasiresonant excitation of InP/InGaP quantum dots using second harmonic generated in a photonic crystal cavity APPLIED PHYSICS LETTERS Buckley, S., Rivoire, K., Hatami, F., Vuckovic, J. 2012; 101 (16)

    View details for DOI 10.1063/1.4761248

    View details for Web of Science ID 000310669300016

  • Cavity quantum electrodynamics with a single quantum dot coupled to a photonic molecule PHYSICAL REVIEW B Majumdar, A., Rundquist, A., Bajcsy, M., Vuckovic, J. 2012; 86 (4)
  • Electrical properties of GaAs photonic crystal cavity lateral p-i-n diodes APPLIED PHYSICS LETTERS Petykiewicz, J., Shambat, G., Ellis, B., Vuckovic, J. 2012; 101 (1)

    View details for DOI 10.1063/1.4732782

    View details for Web of Science ID 000306144800005

  • A photonic crystal cavity-optical fiber tip nanoparticle sensor for biomedical applications APPLIED PHYSICS LETTERS Shambat, G., Kothapalli, S. R., Khurana, A., Provine, J., Sarmiento, T., Cheng, K., Cheng, Z., Harris, J., Daldrup-Link, H., Gambhir, S. S., Vuckovic, J. 2012; 100 (21)

    View details for DOI 10.1063/1.4719520

    View details for Web of Science ID 000304489900085

  • Loss-Enabled Sub-Poissonian Light Generation in a Bimodal Nanocavity PHYSICAL REVIEW LETTERS Majumdar, A., Bajcsy, M., Rundquist, A., Vuckovic, J. 2012; 108 (18)

    Abstract

    We propose an implementation of a source of strongly sub-poissonian light in a system consisting of a quantum dot coupled to both modes of a lossy bimodal optical cavity. When one mode of the cavity is resonantly driven with coherent light, the system will act as an efficient single photon filter, and the transmitted light will have a strongly sub-poissonian character. In addition to numerical simulations demonstrating this effect, we present a physical explanation of the underlying mechanism. In particular, we show that the effect results from an interference between the coherent light transmitted through the resonant cavity and the super-poissonian light generated by photon-induced tunneling. Peculiarly, this effect vanishes in the absence of the cavity loss.

    View details for DOI 10.1103/PhysRevLett.108.183601

    View details for Web of Science ID 000303661900010

    View details for PubMedID 22681074

  • Phonon-mediated coupling between quantum dots through an off-resonant microcavity PHYSICAL REVIEW B Majumdar, A., Bajcsy, M., Rundquist, A., Kim, E., Vuckovic, J. 2012; 85 (19)
  • Probing the ladder of dressed states and nonclassical light generation in quantum-dot-cavity QED PHYSICAL REVIEW A Majumdar, A., Bajcsy, M., Vuckovic, J. 2012; 85 (4)
  • Objective-first design of high-efficiency, small-footprint couplers between arbitrary nanophotonic waveguide modes OPTICS EXPRESS Lu, J., Vuckovic, J. 2012; 20 (7): 7221-7236

    Abstract

    We present an algorithm for designing high efficiency (∼98%), small-footprint (1.5-4 square vacuum wavelengths) couplers between arbitrary nanophotonic waveguide modes in two dimensions. Our "objective-first" method is computationally fast (15 minutes on a single-core personal computer), requires no trial-and-error, and does not require guessing a good starting design. We demonstrate designs for various coupling problems which suggest that our method allows for the design of any single-mode, linear optical device.

    View details for Web of Science ID 000302138800043

    View details for PubMedID 22453404

  • Nonlinear temporal dynamics of a strongly coupled quantum-dot-cavity system PHYSICAL REVIEW A Majumdar, A., Englund, D., Bajcsy, M., Vuckovic, J. 2012; 85 (3)
  • Ultrafast Photon-Photon Interaction in a Strongly Coupled Quantum Dot-Cavity System PHYSICAL REVIEW LETTERS Englund, D., Majumdar, A., Bajcsy, M., Faraon, A., Petroff, P., Vuckovic, J. 2012; 108 (9)

    Abstract

    We study dynamics of the interaction between two weak light beams mediated by a strongly coupled quantum dot-photonic crystal cavity system. First, we perform all-optical switching of a weak continuous-wave signal with a pulsed control beam, and then perform switching between two weak pulsed beams (40 ps pulses). Our results show that the quantum dot-nanocavity system enables fast, controllable optical switching at the single-photon level.

    View details for DOI 10.1103/PhysRevLett.108.093604

    View details for Web of Science ID 000300970700001

    View details for PubMedID 22463636

  • Photoluminescence from In0.5Ga0.5As/GaP quantum dots coupled to photonic crystal cavities PHYSICAL REVIEW B Rivoire, K., Buckley, S., Song, Y., Lee, M. L., Vuckovic, J. 2012; 85 (4)
  • Bichromatic driving of a solid-state cavity quantum electrodynamics system NEW JOURNAL OF PHYSICS Papageorge, A., Majumdar, A., Kim, E. D., Vuckovic, J. 2012; 14
  • Light Emission in Ge Quantum Wells Conference on Lasers and Electro-Optics (CLEO) Fei, E. T., Huo, Y., Shambat, G., Chen, X., Liu, X., Claussen, S. A., Edwards, E. H., Kamins, T. I., Miller, D. A., Vuckovic, J., Harris, J. S. IEEE. 2012
  • Quantum dots in optical nanocavities: from cavity QED to applications Vuckovic, J. 2012
  • Ultra-low threshold and high speed electrically pumped photonic crystal nanocavity lasers and LEDs Vuckovic, J. 2012
  • Phonon Mediated Off-resonant Quantum Dot-Cavity Coupling Majumdar, A., Rundquist, A., Bajcsy, M., Papageorge, A., Kim, Erik, D., Vuckovic, J. 2012
  • Bichromatic Driving of a Solid State cavity QED System New Journal of Physics Papageorge, A., Majumdar, A., Kim, Erik, D., Vuckovic, J. 2012; 14
  • Electrical properties of GaAs photonic crystal cavity lateral PIN diodes Applied Physics Letters Petykiewicz, J., Shambat, G., Ellis, B., Vuckovic, J. 2012; 101
  • Cavity Quantum Electrodynamics of a Single Quantum Dot Coupled to a Photonic Molecule Physical Review B Majumdar, A., Rundquist, A., Bajcsy, M., Vuckovic, J. 2012; 86
  • Quantum dots in optical nanocavities: from cavity QED to device applications Vuckovic, J. 2012
  • MRS Fall Meeting Vuckovic, J. 2012
  • Strong photon-photon and photon – phonon interaction in a coupled quantum dot- photonic crystal nanocavity Vuckovic, J., Majumdar, A., Bajcsy, M., Rundquist, A., Englund, D., Faraon, A. 2012
  • Room Temperature Photoluminescence from Ge/SiGe Quantum Well Structure in Microdisk Resonator Chen, X., Huo, Y., Fei, Edward, T., Shambat, G., Liu, X., Kamins, Theodore, I., Vuckovic, J. 2012
  • Strong photon-photon interaction in a coupled quantum dot- photonic crystal nanocavity Vuckovic, J. 2012
  • Quantum dot - nanocavity QED for quantum information processing,” Focus session on "Semiconductor-based quantum communication Vuckovic, J. 2012
  • Quantum dots in optical nanocavities: from cavity QED to device applications Vuckovic, J. 2012
  • Photonic crystalnanocavity lasers and LEDs Shambat, G., Vuckovic, J. 2012
  • Electrically Driven Photonic Crystal Cavity Devices Shambat, G., Ellis, B., Petykiewicz, J., Mayer, Marie, A., Majumdar, A., Sarmiento, T., Vuckovic, J. 2012
  • Photon blockade with a four-level atom coupled to a microcavity Bajcsy, M., Majumdar, A., Vuckovic, J. 2012
  • Coupling a single quantum dot to a photonic molecule Bajcsy, M., Majumdar, A., Rundquist, A., Vuckovic, J. 2012
  • Electrically injected photonic crystal nanolaser Vuckovic, J., Ellis, B., Shambat, G., Petykiewicz, J., Mayer, M., Sarmiento, T. 2012
  • Cavity QED and quantum optics with a single quantum dot in a photonic crystal cavity or a photonic molecule Vuckovic, J. 2012
  • Nanophotonics for quantum optics OSA Integrated Photonics Research, Silicon and Nano-Photonics (IPR), Colorado Springs, Colorado Vuckovic, J. 2012
  • Electrically driven Electrically driven photonic crystal cavities yield low-power optoelectronic devices SPIE Newsroom Shambat, G., Ellis, B., Petykiewicz, J., Vuckovic, J. 2012
  • Nonlinear Temporal Dynamics of Strongly Coupled Quantum dot-Cavity System Physical Review A Majumdar, A., Englund, D., Bajcsy, M., Vuckovic, J. 2012; 85
  • Probing the ladder of dressed states and nonclassical light generation in quantum dot-cavity QED Physical Review A, 041801(R) Majumdar*, A., Bajcsy*, M., Vuckovic, J. 2012; 85
  • Quasiresonant Excitation of GaP/InGaP Quantum Dots Using Intra-Cavity Second Harmonic Generation Applied Physics Letters Buckley, S., Rivoire, K., Hatami, F., Vuckovic, J. 2012; 101
  • Phonon Mediated off-resonant Quantum Dot-Cavity Interaction Majumdar, A., Kim, Erik, D., Bajcsy, M., Rundquist, A., Vuckovic, J. 2012
  • Improvement in Photoluminescence of Coimplanted Germanium by Laser Annealing Lee, Lennon, Y. T., Adams, B., Chopra, S., Sarmiento, T., Yang, B., Petykiewicz, J., Vuckovic, J. 2012
  • Engineered quantum-dot single photon sources Reports on Progress in Physics Buckley, S., Rivoire, K., Vuckovic, J. 2012; 75
  • Ultrafast photonic crystal single mode LED Shambat, G., Vuckovic, J. 2012
  • High-Efficiency, Small-Footprint Couplers Between Arbitrary Nanophotonic Waveguide Modes Optics Express Lu, J., Vuckovic, J. 2012; 20 (7): 7221-7236
  • Ultrafast Direct Modulation of a Single-Mode Photonic Crystal Nanocavity Light-Emitting Diode Conference on Lasers and Electro-Optics (CLEO) Shambat, G., Ellis, B., Majumdar, A., Petykiewicz, J., Mayer, M., Sarmiento, T., Harris, J., Haller, E., Vuckovic, J. IEEE. 2012
  • Photonic Crystal Nanocavity Lasers and Modulators 25th IEEE Photonics Conference (IPC) Vuckovic, J., Shambat, G., Petykiewicz, J., Ellis, B., Majumdar, A., Sarmiento, T., Mayer, M., Harris, J., Haller, E. IEEE. 2012: 459–460
  • A New Approach to Ge Lasers with Low Pump Power 25th IEEE Photonics Conference (IPC) Chen, X., Huo, Y., Fei, E. T., Shambat, G., Zang, K., Liu, X., Chen, Y., Kamins, T. I., Vuckovic, J., Harris, J. S. IEEE. 2012: 60–61
  • Optical Fiber Tips Functionalized with Semiconductor Photonic Crystal Cavities Conference on Lasers and Electro-Optics (CLEO) Shambat, G., Provine, J., Rivoire, K., Sarmiento, T., Harris, J., Vuckovic, J. IEEE. 2012
  • Ultra-Low Threshold and High Speed Electrically Driven Photonic Crystal Nanocavity Lasers and LEDs Conference on Lasers and Electro-Optics (CLEO) Vuckovic, J., Ellis, B., Shambat, G., Petykiewicz, J., Majumdar, A., Sarmiento, T., Mayer, M., Harris, J., Haller, E. IEEE. 2012
  • Off-resonant Coupling Between a Single Quantum Dot and a Nanobeam Photonic Crystal Cavity Conference on Lasers and Electro-Optics (CLEO) Rundquist, A., Majumdar, A., Vuckovic, J. IEEE. 2012
  • Electrically driven photonic crystal nanocavity lasers, LEDs, and modulators Conference on Novel In-Plane Semiconductor Lasers XI Shambat, G., Ellis, B., Mayer, M., Majumdar, A., Petykiewicz, J., Sarmiento, T., Harris, J., Haller, E. E., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2012

    View details for DOI 10.1117/12.907432

    View details for Web of Science ID 000305332300003

  • Ultrafast Nonlinear Dynamics in Strongly Coupled Quantum Dot-Cavity system Conference on Lasers and Electro-Optics (CLEO) Majumdar, A., Englund, D., Bajcsy, M., Vuckovic, J. IEEE. 2012
  • Multiply Resonant Photonic Crystal Cavities for Nonlinear Frequency Conversion Conference on Lasers and Electro-Optics (CLEO) Buckley, S., Rivoire, K., Vuckovic, J. IEEE. 2012
  • Off-resonant coupling between a single quantum dot and a nanobeam photonic crystal cavity APPLIED PHYSICS LETTERS Rundquist, A., Majumdar, A., Vuckovic, J. 2011; 99 (25)

    View details for DOI 10.1063/1.3671458

    View details for Web of Science ID 000299031600023

  • Optical fiber tips functionalized with semiconductor photonic crystal cavities APPLIED PHYSICS LETTERS Shambat, G., Provine, J., Rivoire, K., Sarmiento, T., Harris, J., Vuckovic, J. 2011; 99 (19)

    View details for DOI 10.1063/1.3660278

    View details for Web of Science ID 000297030200002

  • Effect of photogenerated carriers on the spectral diffusion of a quantum dot coupled to a photonic crystal cavity PHYSICAL REVIEW B Majumdar, A., Kim, E. D., Vuckovic, J. 2011; 84 (19)
  • Ultrafast direct modulation of a single-mode photonic crystal nanocavity light-emitting diode NATURE COMMUNICATIONS Shambat, G., Ellis, B., Majumdar, A., Petykiewicz, J., Mayer, M. A., Sarmiento, T., Harris, J., Haller, E. E., Vuckovic, J. 2011; 2

    Abstract

    Low-power and electrically controlled optical sources are vital for next generation optical interconnect systems to meet strict energy demands. Current optical transmitters consisting of high-threshold lasers plus external modulators consume far too much power to be competitive with future electrical interconnects. Here we demonstrate a directly modulated photonic crystal nanocavity light-emitting diode (LED) with 10 GHz modulation speed and less than 1 fJ per bit energy of operation, which is orders of magnitude lower than previous solutions. The device is electrically controlled and operates at room temperature, while the high modulation speed results from the fast relaxation of the quantum dots used as the active material. By virtue of possessing a small mode volume, our LED is intrinsically single mode and, therefore, useful for communicating information over a single narrowband channel. The demonstrated device is a major step forward in providing practical low-power and integrable sources for on-chip photonics.

    View details for DOI 10.1038/ncomms1543

    View details for Web of Science ID 000297686500026

    View details for PubMedID 22086339

  • Multiply resonant photonic crystal nanocavities for nonlinear frequency conversion OPTICS EXPRESS Rivoire, K., Buckley, S., Vuckovic, J. 2011; 19 (22): 22198-22207

    Abstract

    We describe a photonic crystal nanocavity with multiple spatially overlapping resonances that can serve as a platform for nonlinear frequency conversion. We show nonlinear characterization of structures with two resonances nearly degenerate in frequency. We also demonstrate structures with resonances separated by up to 523 nm.

    View details for Web of Science ID 000296568100100

    View details for PubMedID 22109062

  • Fabrication and Analysis of Epitaxially Grown Ge1-xSnx Microdisk Resonator With 20-nm Free-Spectral Range IEEE PHOTONICS TECHNOLOGY LETTERS Cho, S., Chen, R., Koo, S., Shambat, G., Lin, H., Park, N., Vuckovic, J., Kamins, T. I., Park, B., Harris, J. S. 2011; 23 (20)
  • Probing of single quantum dot dressed states via an off-resonant cavity PHYSICAL REVIEW B Majumdar, A., Papageorge, A., Kim, E. D., Bajcsy, M., Kim, H., Petroff, P., Vuckovic, J. 2011; 84 (8)
  • Phonon mediated off-resonant quantum dot-cavity coupling under resonant excitation of the quantum dot PHYSICAL REVIEW B Majumdar, A., Kim, E. D., Gong, Y., Bajcsy, M., Vuckovic, J. 2011; 84 (8)
  • Nanobeam photonic crystal cavity light-emitting diodes APPLIED PHYSICS LETTERS Shambat, G., Ellis, B., Petykiewicz, J., Mayer, M. A., Sarmiento, T., Harris, J., Haller, E. E., Vuckovic, J. 2011; 99 (7)

    View details for DOI 10.1063/1.3625432

    View details for Web of Science ID 000294208900005

  • Multiply resonant high quality photonic crystal nanocavities APPLIED PHYSICS LETTERS Rivoire, K., Buckley, S., Vuckovic, J. 2011; 99 (1)

    View details for DOI 10.1063/1.3607281

    View details for Web of Science ID 000292639200065

  • Second harmonic generation in GaP photonic crystal waveguides APPLIED PHYSICS LETTERS Rivoire, K., Buckley, S., Hatami, F., Vuckovic, J. 2011; 98 (26)

    View details for DOI 10.1063/1.3607288

    View details for Web of Science ID 000292335700064

  • Integrated quantum optical networks based on quantum dots and photonic crystals NEW JOURNAL OF PHYSICS Faraon, A., Majumdar, A., Englund, D., Kim, E., Bajcsy, M., Vuckovic, J. 2011; 13
  • Inverse design of a three-dimensional nanophotonic resonator OPTICS EXPRESS Lu, J., Boyd, S., Vuckovic, J. 2011; 19 (11): 10563-10570

    Abstract

    The inverse design of a three-dimensional nanophotonic resonator is presented. The design methodology is computationally fast (10 minutes on a standard desktop workstation) and utilizes a 2.5-dimensional approximation of the full three-dimensional structure. As an example, we employ the proposed method to design a resonator which exhibits a mode volume of 0.32(λ/n)3 and a quality factor of 7063.

    View details for Web of Science ID 000290852800050

    View details for PubMedID 21643310

  • Cavity-enhanced direct band electroluminescence near 1550 nm from germanium microdisk resonator diode on silicon APPLIED PHYSICS LETTERS Cheng, S., Shambat, G., Lu, J., Yu, H., Saraswat, K., Kamins, T. I., Vuckovic, J., Nishi, Y. 2011; 98 (21)

    View details for DOI 10.1063/1.3592837

    View details for Web of Science ID 000291041600001

  • Ultralow-threshold electrically pumped quantum-dot photonic-crystal nanocavity laser NATURE PHOTONICS Ellis, B., Mayer, M. A., Shambat, G., Sarmiento, T., Harris, J., Haller, E. E., Vuckovic, J. 2011; 5 (5): 297-300
  • Ultra-low power fiber-coupled gallium arsenide photonic crystal cavity electro-optic modulator OPTICS EXPRESS Shambat, G., Ellis, B., Mayer, M. A., Majumdar, A., Haller, E. E., Vuckovic, J. 2011; 19 (8): 7530-7536

    Abstract

    We demonstrate a gallium arsenide photonic crystal cavity injection-based electro-optic modulator coupled to a fiber taper waveguide. The fiber taper serves as a convenient and tunable waveguide for cavity coupling with minimal loss. Localized electrical injection of carriers into the cavity region via a laterally doped p-i-n diode combined with the small mode volume of the cavity enable ultra-low energy modulation at sub-fJ/bit levels. Speeds of up to 1 GHz are demonstrated with photoluminescence lifetime measurements revealing that the ultimate limit goes well into the tens of GHz.

    View details for Web of Science ID 000290482500048

    View details for PubMedID 21503060

  • Fast quantum dot single photon source triggered at telecommunications wavelength APPLIED PHYSICS LETTERS Rivoire, K., Buckley, S., Majumdar, A., Kim, H., Petroff, P., Vuckovic, J. 2011; 98 (8)

    View details for DOI 10.1063/1.3556644

    View details for Web of Science ID 000287764300069

  • Low power resonant optical excitation of an optomechanical cavity OPTICS EXPRESS Gong, Y., Rundquist, A., Majumdar, A., Vuckovic, J. 2011; 19 (2): 1429-1440

    Abstract

    We demonstrate the actuation of a double beam opto-mechanical cavity with a sinusoidally varying optical input power. We observe the driven mechanical motion with only 200 nW coupled to the optical cavity mode. We also investigate the pump power dependence of the radio-frequency response for both the driving power and the probe power. Finally, we investigate the dependence of the amplitude of the mechanical motion on mechanical cavity quality factor.

    View details for Web of Science ID 000286314600105

    View details for PubMedID 21263684

  • Strong enhancement of direct transition photoluminescence with highly tensile-strained Ge grown by molecular beam epitaxy APPLIED PHYSICS LETTERS Huo, Y., Lin, H., Chen, R., Makarova, M., Rong, Y., Li, M., Kamins, T. I., Vuckovic, J., Harris, J. S. 2011; 98 (1)

    View details for DOI 10.1063/1.3534785

    View details for Web of Science ID 000286009800012

  • Coherent Optical Spectroscopy of a Single Quantum Dot Via an Off-Resonant Cavity Conference on Lasers and Electro-Optics (CLEO) Papageorge, A., Majumdar, A., Kim, E. D., Bajcsy, M., Kim, H., Petroff, P., Vuckovic, J. IEEE. 2011
  • Opto-mechanics and quantum dot-nanocavity QED Vuckovic, J., Majumdar, A., Papageorge, A., Rundquist, A., Gong, Y., Kim, E. 2011
  • Low-power Resonant Optical Excitation of an Optomechanical Cavity Optics Express Gong, Y., Rundquist, A., Majumdar, A., Vuckovic, J. 2011; 19 (2): 1429–1440
  • Inverse Design of 3D Nanophotonic Resonators Optics Express Lu, J., Boyd, S., Vuckovic, J. 2011; 19 (11): 10563-10570
  • Phonon-mediated off-resonant quantum dot-cavity coupling under resonant excitation of the quantum dot Physical Review B Majumdar, A., Gong, Y., Kim, Erik, D., Bajcsy, M., Vuckovic, J. 2011; 84
  • Ultrafast direct modulation of a single mode photonic crystal nanocavity light-emitting diode Nature Communications, 2:539 Shambat, G., Ellis, B., Majumdar, A., Petykiewicz, J., Mayer, M., Sarmiento, T., Vuckovic, J. 2011

    View details for DOI 10.1038/ncomms1543

  • Ultra-low power fiber-coupled gallium arsenide photonic crystal electro-optic modulator Shambat, G., Ellis, B., Majumdar, A., Vuckovic, J. 2011
  • Photonic crystal cavities: from nonlinear optics at a few photons level, to fast, energy efficient information processing Vuckovic, J. 2011
  • Quantum dots in optical nanocavities: from cavity QED to device applications Vuckovic, J. 2011
  • Quantum dots in optical nanocavities: from cavity QED to device applications Vuckovic, J. 2011
  • IEEE 2011 Winter Topical Low dimensional Nanostructures and Subwavelength Photonics Vuckovic, J. 2011
  • Ultra-low threshold lasers and modulators based on optical nanocavities Vuckovic, J., Ellis, B., Shambat, G., Majumdar, A., Faraon, A. 2011
  • Photonic crystals and quantum dots: from cavity QED, to single photon nonlinear optics and efficient information processing Vuckovic, J. 2011
  • (Solid-state) cavity QED for quantum and classical information processing Vuckovic, J. 2011
  • Broadband Tunable Multiply Resonant Photonic Crystal Nanocavities Buckley, S., Rivoire, K., Vuckovic, J. 2011
  • Photoluminescence of In0.5Ga0.5As/GaP quantum dots coupled to photonic crystal cavities Rivoire, K., Buckley, S., Song, Y., Simmonds, P., Lee, M. L., Vučkovic, J. 2011
  • Thermal Conduction in Nanobeam Photonic Crystal Cavities Marconnet, A.M., Kodama, T., Gong, Y., Vuckovic, J., Goodson, K.E. 2011
  • (Solid state) cavity QED and applications Vuckovic, J. 2011
  • Strong enhancement of direct-transition photoluminescence with highly tensile-strained Ge grown by molecular beam epitaxy, Applied Physics Letters Huo, Y., Lin, H., Chen, R., Makarova, M., Rong, Y., Li, M., Vuckovic, J. 2011; 98
  • Cavity-enhanced direct band electroluminescence near 1550nm from germanium microdisk resonator diode on silicon Applied Physics Letters Cheng, S., Shambat, G., Lu, J., Yu, H., Saraswat, K., Kamins, T., Vuckovic, J. 2011; 98
  • Fabrication and Analysis of Epitaxially Grown Ge1-xSnx Microdisk Resonator with 20-nm Free Spectral Range IEEE Photonics Technology Letters Cho, S., Chen, R., Koo, S., Shambat, G., Park, N., Vučković, J. 2011; 23 (20): 1535-1537
  • Multiply resonant photonic crystal cavities for nonlinear frequency conversion Optics Express Focus Issue: “Collective phenomena in photonic, plasmonic and hybrid structures Rivoire, K., Buckley, S., Vuckovic, J. 2011; 19: 22198-22207
  • The effect of photo-generated carriers on the spectral diffusion of a quantum dot coupled to a photonic crystal cavity Physical Review B Majumdar, A., Kim, E., Vuckovic, J. 2011; 84
  • A hybrid quantum photonic interface for solid state qubits Conference on Laser Resonators and Beam Control XIII Englund, D., Li, L., Hodges, J., Shields, B., Rivoire, K., Hatami, F., Vuckovic, J., Park, H., Lukin, M. SPIE-INT SOC OPTICAL ENGINEERING. 2011

    View details for DOI 10.1117/12.877563

    View details for Web of Science ID 000297790700019

  • Quantum dots in optical nanocavities: from cavity QED to device applications Vuckovic, J. 2011
  • Ge Quantum Well Resonator Modulators Edwards, Elizabeth, H., Audet, Ross, M., Fei, E., Shambat, G., Schaevitz, Rebecca, K., Rong, Y., Vuckovic, J. 2011
  • Multi-photon State Generation from Strongly Coupled Quantum Dot-Cavity System Bajcsy, M., Majumdar, A., Vuckovic, J. 2011
  • Ultra-low threshold electrically pumped quantum dot photonic crystal nanocavity laser Nature Photonics Ellis, B., Mayer, M., Shambat, G., Sarmiento, T., Harris, J., Haller, E., Vuckovic, J. 2011; 5: 297-300
  • Multiply resonant photonic crystal nanocavities Applied Physics Letters Rivoire, K., Buckley, S., Vuckovic, J. 2011; 99
  • Quantum dots in optical nanocavities: from cavity QED to device applications Vuckovic, J. 2011
  • IFC e-seminar Vuckovic, J. 2011
  • Nonlinear optics at the single photon level in optical nanocavities Vuckovic, J. 2011
  • Fast quantum dot single photon source triggered at telecommunications wavelength Rivoire, K., Buckley, S., Majumdar, A., Kim, H., Petroff, P., Vuckovic, J. 2011
  • Direct band Ge photoluminescence at 1.6 μm coupled to Ge-on-Si microdisk resonator Shambat, G., Cheng, S., Lu, J., Nishi, Y., Vučković, J. 2011
  • Quantum dot-nanocavity devices for information processing Vuckovic, J., Majumdar, A., Rivoire, K., Kim, E., Faraon, A., Englund, D. 2011
  • Quantum nanophotonics Azoquantum.com (Quantum science thought leaders series) Vuckovic, J. 2011
  • Low power consumption electrically pumped photonic crystal membrane devices Conference on Active Photonic Materials IV Ellis, B., Shambat, G., Mayer, M., Petykiewicz, J., Sarmiento, T., Harris, J., Haller, E. E., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2011

    View details for DOI 10.1117/12.894479

    View details for Web of Science ID 000295963400021

  • Multiply Resonant Photonic Crystal Nanocavities with Broadband Tunability Conference on Lasers and Electro-Optics (CLEO) Buckley, S., Rivoire, K., Vuckovic, J. IEEE. 2011
  • Nonlinear optics in photonic crystal nanocavities: from light sources to quantum photonic interfaces Conference on Photonic and Phononic Properties of Engineered Nanostructures Rivoire, K., Buckley, S., Majumdar, A., Shambat, G., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2011

    View details for DOI 10.1117/12.881299

    View details for Web of Science ID 000298244400005

  • Double-Layer Silicon Photonic Crystal Fiber Tip Sensor 16th International Conference on Optical MEMS and Nanophotonics (OMN) Park, B., Jung, I. W., Provine, J., Shambat, G., Vuckovic, J., Howe, R. T., Solgaard, O. IEEE. 2011: 97–98
  • Off-resonant quantum dot-cavity interaction Conference on Lasers and Electro-Optics (CLEO) Majumdar, A., Kim, E., Gong, Y., Faraon, A., Englund, D., Vuckovic, J. IEEE. 2011
  • Ultra-low power fiber-coupled gallium arsenide photonic crystal cavity electro-optic modulator Conference on Lasers and Electro-Optics (CLEO) Shambat, G., Ellis, B., Majumdar, A., Vuckovic, J. IEEE. 2011
  • Direct band Ge photoluminescence at 1.6 mu m coupled to Ge-on-Si microdisk resonators Conference on Lasers and Electro-Optics (CLEO) Shambat, G., Cheng, S., Lu, J., Nishi, Y., Vuckovic, J. IEEE. 2011
  • Low Power Resonant Optical Excitation of an Optomechanical Cavity Conference on Lasers and Electro-Optics (CLEO) Gong, Y., Rundquist, A., Majumdar, A., Vuckovic, J. IEEE. 2011
  • Second harmonic generation in GaP photonic crystal waveguides IEEE Photonics Conference (PHO) Rivoire, K., Buckley, S., Hatami, F., Vuckovic, J. IEEE. 2011: 381–382
  • Ultra-low Threshold Electrically Pumped Quantum Dot Photonic Crystal Nanocavity Laser Conference on Lasers and Electro-Optics (CLEO) Ellis, B., Mayer, M. A., Shambat, G., Sarmiento, T., Harris, J., Haller, E. E., Vuckovic, J. IEEE. 2011
  • Direct band Ge photoluminescence near 1.6 mu m coupled to Ge-on-Si microdisk resonators APPLIED PHYSICS LETTERS Shambat, G., Cheng, S., Lu, J., Nishi, Y., Vuckovic, J. 2010; 97 (24)

    View details for DOI 10.1063/1.3526732

    View details for Web of Science ID 000285481000002

  • Deterministic Coupling of a Single Nitrogen Vacancy Center to a Photonic Crystal Cavity NANO LETTERS Englund, D., Shields, B., Rivoire, K., Hatami, F., Vuckovic, J., Park, H., Lukin, M. D. 2010; 10 (10): 3922-3926

    Abstract

    We describe and experimentally demonstrate a technique for deterministic, large coupling between a photonic crystal (PC) nanocavity and single photon emitters. The technique is based on in situ scanning of a PC cavity over a sample and allows the precise positioning of the cavity over a desired emitter with nanoscale resolution. The power of the technique is demonstrated by coupling the PC nanocavity to a single nitrogen vacancy (NV) center in diamond, an emitter system that provides optically accessible electron and nuclear spin qubits.

    View details for DOI 10.1021/nl101662v

    View details for Web of Science ID 000282727600020

    View details for PubMedID 20825160

  • Analysis of the Purcell effect in photonic and plasmonic crystals with losses OPTICS EXPRESS Iwase, H., Englund, D., Vuckovic, J. 2010; 18 (16): 16546-16560

    Abstract

    We study the spontaneous emission rate of emitter in a periodically patterned metal or dielectric membrane in the picture of a multimode field of damped Bloch states. For Bloch states in dielectric structures, the approach fully describes the Purcell effect in photonic crystal or spatially coupled cavities with losses. For a metal membrane, the Purcell factor depends on resistive loss at the resonant frequency of surface plasmon polariton (SPP). Analysis of an InP-Au-InP structure indicates that the SPP's Purcell effect can exceed a value of 50 in the ultraviolet. For a plasmonic crystal, we find a position-dependent Purcell enhancement with a mean value similar to the unpatterned membrane.

    View details for Web of Science ID 000281042400030

    View details for PubMedID 20721044

  • Proposal for high-speed and high-fidelity electron-spin initialization in a negatively charged quantum dot coupled to a microcavity in a weak external magnetic field PHYSICAL REVIEW A Majumdar, A., Lin, Z., Faraon, A., Vuckovic, J. 2010; 82 (2)
  • Differential reflection spectroscopy of a single quantum dot strongly coupled to a photonic crystal cavity APPLIED PHYSICS LETTERS Kim, E. D., Majumdar, A., Kim, H., Petroff, P., Vuckovic, J. 2010; 97 (5)

    View details for DOI 10.1063/1.3469922

    View details for Web of Science ID 000281059500055

  • Sum-frequency generation in doubly resonant GaP photonic crystal nanocavities APPLIED PHYSICS LETTERS Rivoire, K., Lin, Z., Hatami, F., Vuckovic, J. 2010; 97 (4)

    View details for DOI 10.1063/1.3469936

    View details for Web of Science ID 000281059200073

  • Linewidth broadening of a quantum dot coupled to an off-resonant cavity PHYSICAL REVIEW B Majumdar, A., Faraon, A., Kim, E. D., Englund, D., Kim, H., Petroff, P., Vuckovic, J. 2010; 82 (4)
  • Observation of Transparency of Erbium-doped Silicon nitride in photonic crystal nanobeam cavities OPTICS EXPRESS Gong, Y., Makarova, M., Yerci, S., Li, R., Stevens, M. J., Baek, B., Nam, S. W., Dal Negro, L., Vuckovic, J. 2010; 18 (13): 13863-13873

    Abstract

    One dimensional nanobeam photonic crystal cavities are fabricated in an Er-doped amorphous silicon nitride layer. Photoluminescence from the cavities around 1.54 microm is studied at cryogenic and room temperatures at different optical pump powers. The resonators demonstrate Purcell enhanced absorption and emission rates, also confirmed by time resolved measurements. Resonances exhibit linewidth narrowing with pump power, signifying absorption bleaching and the onset of stimulated emission in the material at both 5.5 K and room temperature. We estimate from the cavity linewidths that Er has been pumped to transparency at the cavity resonance wavelength.

    View details for Web of Science ID 000279009900060

    View details for PubMedID 20588519

  • Photoluminescence from silicon dioxide photonic crystal cavities with embedded silicon nanocrystals PHYSICAL REVIEW B Gong, Y., Ishikawa, S., Cheng, S., Gunji, M., Nishi, Y., Vuckovic, J. 2010; 81 (23)
  • Tunable-wavelength second harmonic generation from GaP photonic crystal cavities coupled to fiber tapers OPTICS EXPRESS Shambat, G., Rivoire, K., Lu, J., Hatami, F., Vuckovic, J. 2010; 18 (12): 12176-12184

    Abstract

    We demonstrate up to 30 nm tuning of gallium phosphide photonic crystal cavities resonances at aproximately 1.5 microm using a tapered optical fiber. The tuning is achieved through a combination of near-field perturbations and mechanical deformation of the membrane, both induced by the fiber probe. By exploiting this effect, we show fiber-coupled second harmonic generation with a tuning range of nearly 10 nm at the second harmonic wavelength of approximately 750 nm. By scaling cavity parameters, the signal could easily be shifted into other parts of the visible spectrum.

    View details for Web of Science ID 000278527700016

    View details for PubMedID 20588341

  • Electrically pumped photonic crystal nanocavity light sources using a laterally doped p-i-n junction APPLIED PHYSICS LETTERS Ellis, B., Sarmiento, T., Mayer, M., Zhang, B., Harris, J., Haller, E., Vuckovic, J. 2010; 96 (18)

    View details for DOI 10.1063/1.3425663

    View details for Web of Science ID 000277422000003

  • Nanobeam photonic crystal cavity quantum dot laser OPTICS EXPRESS Gong, Y., Ellis, B., Shambat, G., Sarmiento, T., Harris, J. S., Vuckovic, J. 2010; 18 (9): 8781-8789

    Abstract

    The lasing behavior of one dimensional GaAs nanobeam cavities with embedded InAs quantum dots is studied at room temperature. Lasing is observed throughout the quantum dot PL spectrum, and the wavelength dependence of the threshold is calculated. We study the cavity lasers under both 780 nm and 980 nm pump, finding thresholds as low as 0.3 microW and 19 microW for the two pump wavelengths, respectively. Finally, the nanobeam cavity laser wavelengths are tuned by up to 7 nm by employing a fiber taper in near proximity to the cavities. The fiber taper is used both to efficiently pump the cavity and collect the cavity emission.

    View details for Web of Science ID 000277082200006

    View details for PubMedID 20588722

  • Coupled fiber taper extraction of 1.53 mu m photoluminescence from erbium doped silicon nitride photonic crystal cavities OPTICS EXPRESS Shambat, G., Gong, Y., Lu, J., Yerci, S., Li, R., Dal Negro, L., Vuckovic, J. 2010; 18 (6): 5964-5973

    Abstract

    Optical fiber tapers are used to collect photoluminescence emission at approximately 1.5 microm from photonic crystal cavities fabricated in erbium doped silicon nitride on silicon. In the experiment, photoluminescence collection via one arm of the fiber taper is enhanced 2.5 times relative to free space collection, corresponding to a net collection efficiency of 4%. Theoretically, the collection efficiency into one arm of the fiber-taper with this material system and cavity design can be as high as 12.5%, but the degradation of the experimental coupling efficiency relative to this value mainly comes from scattering loss within the short taper transition regions. By varying the fiber taper offset from the cavity, a broad tuning range of coupling strength and collection efficiency is obtained. This material system combined with fiber taper collection is promising for building on-chip optical amplifiers.

    View details for Web of Science ID 000276002500066

    View details for PubMedID 20389616

  • Generation of nonclassical states of light via photon blockade in optical nanocavities PHYSICAL REVIEW A Faraon, A., Majumdar, A., Vuckovic, J. 2010; 81 (3)
  • Theory of electro-optic modulation via a quantum dot coupled to a nano-resonator OPTICS EXPRESS Majumdar, A., Manquest, N., Faraon, A., Vuckovic, J. 2010; 18 (5): 3974-3984

    Abstract

    In this paper, we analyze the performance of an electro-optic modulator based on a single quantum dot strongly coupled to a nano-resonator, where electrical control of the quantum dot frequency is achieved via quantum confined Stark effect. Using realistic system parameters, we show that modulation speeds of a few tens of GHz are achievable with this system, while the energy per switching operation can be as small as 0.5 fJ. In addition, we study the non-linear distortion, and the effect of pure quantum dot dephasing on the performance of the modulator.

    View details for Web of Science ID 000275454100107

    View details for PubMedID 20389411

  • Resonant Excitation of a Quantum Dot Strongly Coupled to a Photonic Crystal Nanocavity PHYSICAL REVIEW LETTERS Englund, D., Majumdar, A., Faraon, A., Toishi, M., Stoltz, N., Petroff, P., Vuckovic, J. 2010; 104 (7)

    Abstract

    We describe the resonant excitation of a single quantum dot that is strongly coupled to a photonic crystal nanocavity. The cavity represents a spectral window for resonantly probing the optical transitions of the quantum dot. We observe narrow absorption lines attributed to the single and biexcition quantum dot transitions and measure antibunched population of the detuned cavity mode [g{(2)}(0)=0.19].

    View details for DOI 10.1103/PhysRevLett.104.073904

    View details for Web of Science ID 000274664500027

    View details for PubMedID 20366887

  • Inverse design of nanophotonic structures using complementary convex optimization OPTICS EXPRESS Lu, J., Vuckovic, J. 2010; 18 (4): 3793-3804

    Abstract

    A computationally-fast inverse design method for nanophotonic structures is presented. The method is based on two complementary convex optimization problems which modify the dielectric structure and resonant field respectively. The design of one- and two-dimensional nanophotonic resonators is demonstrated and is shown to require minimal computational resources.

    View details for Web of Science ID 000274795700062

    View details for PubMedID 20389390

  • Linewidth narrowing and Purcell enhancement in photonic crystal cavities on an Er-doped silicon nitride platform OPTICS EXPRESS Gong, Y., Makarova, M., Yerci, S., Li, R., Stevens, M. J., Baek, B., Nam, S. W., Hadfield, R. H., Dorenbos, S. N., Zwiller, V., Vuckovic, J., Dal Negro, L. 2010; 18 (3): 2601-2612

    Abstract

    Light emission at 1.54 microm from an Er-doped amorphous silicon nitride layer coupled to photonic crystal resonators at cryogenic and room temperatures and under varying optical pump powers has been studied. The results demonstrate that small mode volume, high quality factor resonators enhance Er absorption and emission rates at the cavity resonance. Time resolved measurements give 11- to 17-fold Purcell enhancement of spontaneous emission at cryogenic temperatures, and 2.4-fold enhancement at room temperature. Resonances exhibit linewidth narrowing with pump power, signifying absorption bleaching and partial inversion of the Er ions cryogenic temperatures. We estimate that 31% of Er ions are excited at the highest pump power.

    View details for Web of Science ID 000274791200082

    View details for PubMedID 20174089

  • Fast Electrical Control of a Quantum Dot Strongly Coupled to a Photonic-Crystal Cavity PHYSICAL REVIEW LETTERS Faraon, A., Majumdar, A., Kim, H., Petroff, P., Vuckovic, J. 2010; 104 (4)

    Abstract

    The resonance frequency of an InAs quantum dot strongly coupled to a GaAs photonic-crystal cavity was electrically controlled via the quadratic quantum confined Stark effect. Stark shifts up to 0.3 meV were achieved using a lateral Schottky electrode that created a local depletion region at the location of the quantum dot. We report switching of a probe laser coherently coupled to the cavity up to speeds as high as 150 MHz, limited by the RC constant of the transmission line. The coupling strength g and the magnitude of the Stark shift with electric field were investigated while coherently probing the system.

    View details for DOI 10.1103/PhysRevLett.104.047402

    View details for Web of Science ID 000274336600049

    View details for PubMedID 20366737

  • Photonic crystal cavities in silicon dioxide APPLIED PHYSICS LETTERS Gong, Y., Vuckovic, J. 2010; 96 (3)

    View details for DOI 10.1063/1.3297877

    View details for Web of Science ID 000273890500007

  • Enhanced two-photon processes in single quantum dots inside photonic crystal nanocavities PHYSICAL REVIEW B Lin, Z., Vuckovic, J. 2010; 81 (3)
  • Inverse design of nanophotonics structures using complementary convex optimization Vuckovic, J. 2010
  • Nonlinear frequency conversion in GaP photonic crystal nanocavities Rivoire, K., Lin, Z., Hatami, F., Masselink, W., Ted, Vučković, J. 2010
  • Differential Reflection Spectroscopy of Photonic Crystal Cavities Containing Coupled InAs Quantum Dots Kim, Erik, D., Majumdar, A., Kim, J. V., Petroff, P. 2010
  • Quantum and classical information processing with a single quantum dot in photonic crystal cavity Majumdar, A., Faraon, A., Lin, C., Manquest, N., Englund, D., Fushman, I., Vuckovic, J. 2010
  • Two-Photon Absorption and Emission in Quantum Dots coupled to Photonic Crystal Nanocavities Phys. Rev. B Lin, Z., Vuckovic, J. 2010; 81
  • Analysis of Purcell effect in photonic and plasmonic crystals with losses Optics Express Iwase, H., Englund, D., Vučković, J. 2010; 18 (16)
  • Deterministic coupling of a single nitrogen vacancy center to a photonic crystal nanocavity Nano-letters Englund, D., Shields, B., Rivoire, K., Vuckovic, J., Hatami, F., Park, H. 2010; 10 (10)
  • Active photonic crystal devices: from switches and modulators controlled with sub-fJ energies, to silicon-based light sources Vuckovic, J. 2010
  • Fast and energy efficient optical switches and modulators based on photonic crystals Vuckovic, J. 2010
  • Nanobeam Photonic Crystal Cavities Gong, Y., Ellis, B., Sarmiento, T., Harris, James, S., Vučković, J. 2010
  • Caltech Vuckovic, J. 2010
  • Optimization of Light emission from Silicon nanocrystals grown by PECVD Ishikawa, S., Cheng, S., Gong, Y., Vuckovic, J., Nishi, Y. 2010
  • Room temperature 1.6μm photoluminescence and electroluminescence from in-situ doped n-type epi-Ge on Si Cheng, S., Lu, J., Shambat, G., Yu, H., Saraswat, K., Vuckovic, J. 2010
  • Tunable light sources in the visible and near infrared based on fiber taper coupled photonic crystal cavities Shambat, G., Gong, Y., Rivoire, K., Lu, J., Yerci, S., Li, R., Vuckovic, J. 2010
  • Nonlinear frequency conversion in GaP photonic crystal cavities Rivoire, K., Lin, Z., Hatami, F., Vučkovic, J. 2010
  • Observation of linewidth narrowing in erbium-doped silicon nitride coupled to photonic crystal nanobeam cavities Gong, Y., Makarova, M., Yerci, S., Li, R., Negro, L. D., Vuckovic, J. 2010
  • Classical and quantum information processing with a single quantum dot in a photonic crystal nanocavity Vuckovic, J., Majumdar, A. 2010
  • Photonic Crystal and Plasmonic Silicon Based Light Sources IEEE Journal on Selected Topics in Quantum Electronics, Special Issue on Silicon Photonics Makarova, M., Gong, Y., Cheng, S., Nishi, Y., Yerci, S., Li, R., Vuckovic, J. 2010; 16: 132-140
  • Observation of Transparency of Er-doped Silicon nitride in photonic crystal nanobeam cavities Optics Express Gong, Y., Makarova, M., Yerci, S., Li, R., Stevens, M., Baek, B., Vuckovic, J. 2010; 18 (13): 13863-13873
  • MARCO IFC e-seminar Vuckovic, J. 2010
  • Quantum dots in nanocavities: from cavity QED to optical switches Vuckovic, J. 2010
  • Nonlinear optics (at a single photon level) in photonic crystal nanocavities Vuckovic, J., Rivoire, K., Majumdar, A., Fushman, I., Englund, D., Faraon, A. 2010
  • Silicon nanocavity based light sources Vuckovic, J. 2010
  • Fiber taper collection of photoluminescence at 1.5 μm from erbium dped silicon nitride photonic crystal cavities Shambat, G., Gong, Y., Lu, J., Negro, L. D., Vuckovic, J. 2010
  • Inverse Design of Nanophotonic Structures using Complementary Convex Optimization Lu, J., Vuckovic, J., Boyd, S. 2010
  • Electro-optic modulation with a single quantum dot strongly coupled to a nanocavity Majumdar, A., Faraon, A., Manquest, N., Kim, H., Petroff, P., Vuckovic, J. 2010
  • Photoluminescence from silicon dioxide photonic crystal cavities with embedded silicon nanocrystals Gong, Y., Ishikawa, S., Cheng, S., Nishi, Y., Vuckovic, J. 2010
  • Coupled fiber taper extraction of 1.53 μm photoluminescence from erbium doped silicon nitride photonic crystal cavities Optics Express Shambat, G., Gong, Y., Lu, J., Yerci, S., Li, R., Negro, L. D., Vuckovic, J. 2010; 18 (6): 5964-5973
  • Generation of non-classical states of light via photon blockade in optical nanocavities Physical Review A Faraon, A., Majumdar, A., Vuckovic, J. 2010; 81
  • Direct band Ge photoluminescence near 1.6μm coupled to Ge-on-Si microdisk resonators Applied Physics Letters Shambat, G., Cheng, S., Lu, J., Nishi, Y., Vuckovic, J. 2010; 97
  • Physics Colloquium Vuckovic, J. 2010
  • Quantum dots in photonic crystals for classical and quantum information processing Vuckovic, J. 2010
  • Fast electrical control of a quantum dot strongly coupled to a photonic crystal cavity Physical Review Letters Faraon, A., Majumdar, A., Kim, H., Petroff, P., Vuckovic, J. 2010; 104
  • Proposal for high-speed and high-fidelity electron spin initialization in a negatively charged quantum dot coupled to a microcavity in a weak external magnetic field Phys. Rev. A Majumdar, A., Lin, Z., Faraon, A., Vuckovic, J. 2010; 81
  • Fast and energy efficient (silicon CMOS compatible) sources and modulators based on photonic crystals. Vuckovic, J. 2010
  • Doubly resonant photonic crystal cavities Buckley, S., Rivoire, K., Vuckovic, J. 2010
  • Electrically pumped photonic crystal nanocavities using a laterally doped p-i-n junction Applied Physics Letters Ellis, B., Sarmiento, T., Mayer, M., Zhang, B., Harris, J., Haller, E., Vuckovic, J. 2010; 96
  • Linewidth narrowing and luminescence enhancement in photonic crystal cavities and plasmonic gratings on an Er-doped silicon nitride platform Conference on Photonic and Phononic Crystal Materials and Devices X Gong, Y., Makarova, M., Yerci, S., Li, R., Stevens, M., Baek, B., Nam, S. W., Dal Negro, L., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2010

    View details for DOI 10.1117/12.847993

    View details for Web of Science ID 000283790200002

  • Integrated photonic crystal networks with coupled quantum dots Conference on Advances in Photonics of Quantum Computing, Memory, and Communication III Faraon, A., Majumdar, A., Englund, D., Lin, Z., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2010

    View details for DOI 10.1117/12.844003

    View details for Web of Science ID 000284307900009

  • Photonic Crystal and Plasmonic Silicon-Based Light Sources IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS Makarova, M., Gong, Y., Cheng, S., Nishi, Y., Yerci, S., Li, R., Dal Negro, L., Vuckovic, J. 2010; 16 (1): 132-140
  • Electrically Pumped Photonic Crystal Nanocavities Using a Laterally Doped p-i-n Junction Conference on Lasers and Electro-Optics (CLEO)/Quantum Electronics and Laser Science Conference (QELS) Ellis, B., Sarmiento, T., Mayer, M., Stone, P., Beeman, J., Zhang, B., Dubon, O., Haller, E., Yamamoto, Y., Harris, J., Vuckovic, J. IEEE. 2010
  • Quantum and classical information processing with a single quantum dot in photonic crystal cavity 22nd International Conference on Indium Phosphide and Related Materials Majumdar, A., Faraon, A., Englund, D., Kim, E., Fushman, I., Kim, H., Petroff, P., Vuckovic, J. IEEE. 2010
  • Inverse Design of Nanophotonic Structures using Complementary Convex Optimization Conference on Lasers and Electro-Optics (CLEO)/Quantum Electronics and Laser Science Conference (QELS) Lu, J., Vuckovic, J. IEEE. 2010
  • Optical manipulation of quantum dot excitons strongly coupled to photonic crystal cavities Conference on Advances in Photonics of Quantum Computing, Memory, and Communication III Majumdar, A., Faraon, A., Englund, D., Manquest, N., Kim, H., Petroff, P., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2010

    View details for DOI 10.1117/12.843372

    View details for Web of Science ID 000284307900007

  • Optimal pulse to generate non-classical photon states via photon blockade Conference on Advances in Photonics of Quantum Computing, Memory, and Communication III Majumdar, A., Faraon, A., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2010

    View details for DOI 10.1117/12.844019

    View details for Web of Science ID 000284307900010

  • Characterizations of direct band gap photoluminescence and electroluminescence from epi-Ge on Si 4th SiGe, Ge, and Related Compounds - Materials, Processing and Devices Symposium held at the 218th Meeting of the Electrochemical-Society (ECS) Cheng, S., Shambat, G., Lu, J., Yu, H., Saraswat, K., Vuckovic, J., Nishi, Y. ELECTROCHEMICAL SOC INC. 2010: 545–54

    View details for DOI 10.1149/1.3487585

    View details for Web of Science ID 000314957600056

  • Linewidth narrowing and Purcell enhancement in photonic crystal cavities on an Er-doped silicon nitride platform Conference on Lasers and Electro-Optics (CLEO)/Quantum Electronics and Laser Science Conference (QELS) Gong, Y., Makarova, M., Yerci, S., Li, R., Dal Negro, L., Vuckovic, J. IEEE. 2010
  • Fiber taper collection of photoluminescence at 1.54 mu m from erbium doped silicon nitride photonic crystal cavities Conference on Lasers and Electro-Optics (CLEO)/Quantum Electronics and Laser Science Conference (QELS) Shambat, G., Gong, Y., Lu, J., Yerci, S., Li, R., Dal Negro, L., Vuckovic, J. IEEE. 2010
  • Second harmonic generation in gallium phosphide photonic crystal nanocavities with ultralow CW pump power Conference on Lasers and Electro-Optics (CLEO)/Quantum Electronics and Laser Science Conference (QELS) Rivoire, K., Lin, Z., Hatami, F., Masselink, W. T., Vuckovic, J. IEEE. 2010
  • Second harmonic generation in gallium phosphide photonic crystal nanocavities with ultralow continuous wave pump power OPTICS EXPRESS Rivoire, K., Lin, Z., Hatami, F., Masselink, W. T., Vuckovic, J. 2009; 17 (25): 22609-22615

    Abstract

    We demonstrate second harmonic generation in photonic crystal nanocavities fabricated in the semiconductor gallium phosphide. We observe second harmonic radiation at 750 nm with input powers of only nanowatts coupled to the cavity and conversion effciency P(out)/P(2)(in,coupled)=430%/W. The large electronic band gap of GaP minimizes absorption loss, allowing effcient conversion. Our results are promising for integrated, low-power light sources and on-chip reduction of input power in other nonlinear processes.

    View details for Web of Science ID 000272761300037

    View details for PubMedID 20052186

  • Photonic quantum technologies NATURE PHOTONICS O'Brien, J. L., Furusawa, A., Vuckovic, J. 2009; 3 (12): 687-695
  • Enhanced Light Emission from Erbium Doped Silicon Nitride in Plasmonic Metal-Insulator-Metal Structures OPTICS EXPRESS Gong, Y., Yerci, S., Li, R., Dal Negro, L., Vuckovic, J. 2009; 17 (23): 20642-20650

    Abstract

    Plasmonic gratings and nano-particle arrays in a metal-insulator-metal structures are fabricated on an erbium doped silicon nitride layer. This material system enables simple fabrication of the structure, since the active nitride layer can be directly grown on metal. Enhancement of collected emission of up to 12 is observed on resonance, while broad off-resonant enhancement is also present. The output polarization behavior of the gratings and nano-particle arrays is investigated and matched to plasmonic resonances, and the behavior of coupled modes as a function of inter-particle distance is also discussed.

    View details for Web of Science ID 000271630000003

    View details for PubMedID 19997293

  • An optical modulator based on a single strongly coupled quantum dot - cavity system in a p-i-n junction OPTICS EXPRESS Englund, D., Faraon, A., Majumdar, A., Stoltz, N., Petroff, P., Vuckovic, J. 2009; 17 (21): 18651-18658

    Abstract

    We demonstrate an optical modulator based on a single quantum dot strongly coupled to a photonic crystal cavity. A vertical p-i-n junction is used to tune the quantum dot and thereby modulate the cavity transmission, with a measured instrument-limited response time of 13 ns. A modulator based on a single quantum dot promises operation at high bandwidth and low power.

    View details for Web of Science ID 000270766800028

    View details for PubMedID 20372597

  • Lithographic positioning of fluorescent molecules on high-Q photonic crystal cavities APPLIED PHYSICS LETTERS Rivoire, K., Kinkhabwala, A., Hatami, F., Masselink, W. T., Avlasevich, Y., Muellen, K., Moerner, W. E., Vuckovic, J. 2009; 95 (12)

    View details for DOI 10.1063/1.3232233

    View details for Web of Science ID 000270243800065

  • Electrically controlled modulation in a photonic crystal nanocavity OPTICS EXPRESS Englund, D., Ellis, B., Edwards, E., Sarmiento, T., Harris, J. S., Miller, D. A., Vuckovic, J. 2009; 17 (18): 15409-15419

    Abstract

    We describe a compact modulator based on a photonic crystal nanocavity whose resonance is electrically controlled through an integrated p-i-n junction. The sub-micron size of the nanocavity promises very low capacitance, high bandwidth, and efficient on-chip integration in optical interconnects.

    View details for PubMedID 19724539

  • High-brightness single photon source from a quantum dot in a directional-emission nanocavity OPTICS EXPRESS Toishi, M., Englund, D., Faraon, A., Vuckovic, J. 2009; 17 (17): 14618-14626

    Abstract

    We analyze a single photon source consisting of an InAs quantum dot coupled to a directional-emission photonic crystal (PC) cavity implemented in GaAs. On resonance, the dot's lifetime is reduced by more than 10 times, to 45 ps. Compared to the standard three-hole defect cavity, the perturbed PC cavity design improves the collection efficiency into an objective lens (NA = 0.75) by factor 4.5, and improves the coupling efficiency of the collected light into a single mode fiber by factor 1.9. The emission frequency is determined by the cavity mode, which is antibunched to g((2))(0) = 0.05. The cavity design also enables efficient coupling to a higher-order cavity mode for local optical excitation of cavity-coupled quantum dots.

    View details for Web of Science ID 000269232800017

    View details for PubMedID 19687940

  • Local temperature control of photonic crystal devices via micron-scale electrical heaters APPLIED PHYSICS LETTERS Faraon, A., Vuckovic, J. 2009; 95 (4)

    View details for DOI 10.1063/1.3189081

    View details for Web of Science ID 000268611900046

  • Room temperature 1.6 microm electroluminescence from Ge light emitting diode on Si substrate. Optics express Cheng, S., Lu, J., Shambat, G., Yu, H., Saraswat, K., Vuckovic, J., Nishi, Y. 2009; 17 (12): 10019-10024

    Abstract

    We report the room temperature electroluminescence (EL) at 1.6 microm of a Ge n+/p light emitting diode on a Si substrate. Unlike normal electrically pumped devices, this device shows a super linear luminescence enhancement at high current. By comparing different n type doping concentrations, we observe that a higher concentration is required to achieve better efficiency of the device. Thermal enhancement effects observed in temperature dependent EL spectra show the capability of this device to operate at room temperature or above. These detailed studies show that Ge can be a good candidate for a Si compatible light emitting device.

    View details for PubMedID 19506652

  • Time-resolved lasing action from single and coupled photonic crystal nanocavity array lasers emitting in the telecom band JOURNAL OF APPLIED PHYSICS Englund, D., Altug, H., Vuckovic, J. 2009; 105 (9)

    View details for DOI 10.1063/1.3116563

    View details for Web of Science ID 000266263300011

  • Quantum dots in photonic crystals: From quantum information processing to single photon nonlinear optics PHOTONICS AND NANOSTRUCTURES-FUNDAMENTALS AND APPLICATIONS Englund, D., Fushman, I., Faraon, A., Vuckovic, J. 2009; 7 (1): 56-62
  • Plasmonic enhancement of emission from Si-nanocrystals APPLIED PHYSICS LETTERS Gong, Y., Lu, J., Cheng, S., Nishi, Y., Vuckovic, J. 2009; 94 (1)

    View details for DOI 10.1063/1.3055602

    View details for Web of Science ID 000262357800073

  • High Efficiency Solar Cells based on Spontaneous Emission Inhibition in Photonic Crystals Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2009) Ellis, B., Sarmiento, T., Harris, J., Vuckovic, J. IEEE. 2009: 2659–2660
  • Cavity QED in photonic crystals: from quantum information processing to single photon nonlinear optics Vuckovic, J. 2009
  • Photonic crystal nanocavities: from active nanophotonics, to quantum information processing and nonlinear optics at a single photon level Vuckovic, J. 2009
  • Electroluminescence from GeSi LED Cheng, S., Shambat, G., Lu, J., Saraswat, K., Nishi, Y., Vuckovic, J. 2009
  • Fiber taper coupling to photoluminescent erbium-doped amorphous silicon nitride photonic crystal cavities Shambat, G., Lu, J., Gong, Y., Vuckovic, J. 2009
  • Differential gain at 1.54 μm in Er-doped silicon nitride coupled to photonic crystal cavity Makarova, M., Gong, Y., Yerci, S., Li, R., Negro, L. D., Vuckovic, J. 2009
  • Fast Electrical Control via Quantum Confined Stark Effect of a Strongly Coupled Quantum Dot in a Nano-Resonator Majumdar, A., Faraon, A., Kim, H., Petroff, P. 2009
  • Electromagnetic Inverse Design Lu, J., Vuckovic, J. 2009
  • Enhanced Light Emission from Erbium Doped Silicon Nitride in Plasmonic Metal-Insulator- Metal Structures Gong, Y., Yerci, S., Li, R., Negro, L. D., Vučković, J. 2009
  • Efficient luminescence in highly tensile-strained germanium Huo, Y., Lin, H., Rong, Y., Makarova, M., Li, M., Chen, R., Vuckovic, J. 2009
  • Differential gain at 1530 nm in Er-doped silicon nitride coupled to photonic crystal cavity Makarova, M., Gong, Y., Vuckovic, J., Yerci, S., Li, R., Negro, L. D. 2009
  • Quantum Dot Spectroscopy by means of Non-resonant Dot-Cavity Coupling Majumdar, A., Faraon, A., Englund, D., Vuckovic, J. 2009
  • Plasmonic Metal-Insulator-Metal Structures for Interaction with Erbium in Amorphous Silicon Nitride Gong, Y., Yerci, S., Negro, L. D., Vuckovic, J. 2009
  • Photonic crystal nanocavities: from active nanophotonics, to quantum information processing and nonlinear optics at a single photon level Vuckovic, J. 2009
  • Quantum dots in photonic crystals: from quantum information processing to single photon nonlinear optics Vuckovic, J. 2009
  • Single photon nonlinear optics on photonic crystal chips SPIE Newsroom Englund, D., Faraon, A., Fushman, I., Vuckovic, J. 2009
  • Cavity-Enhanced Two-Photon Processes in Quantum Dots and Applications to Quantum Information Science Lin, Z., Vuckovic, J. 2009
  • Plasmonic enhancement of emission from silicon nanocrystals Applied Physics Letters Gong, Y., Lu, J., Cheng, S., Nishi, Y., Vuckovic, J. 2009; 94
  • Erbium Doped Silicon Photonic Crystals for Light Sources and Amplifiers Vučković, J., Makarova, M., Gong, Y., Yerci, S., Li, R., Negro, L. D. 2009
  • Second Harmonic generation in Gallium Phosphide photonic crystal nanocavities with ultralow continuous wave pump power Rivoire, K., Lin, Z., Hatami, F., Masselink, W., Ted, Vuckovic, J. 2009
  • High Efficiency Solar Cells based on Spontaneous Emission Inhibition in Photonic Crystals Ellis, B., Sarmiento, T., Harris, J., Vuckovic, J. 2009
  • Electrically Driven Optical Modulator with a Strongly Coupled Quantum Dot Faraon, A., Majumdar, A., Kim, H., Petroff, P., Vuckovic, J. 2009
  • Optical probing and manipulation of single quantum dots in photonic crystal cavities Englund, D., Faraon, A., Fushman, I., Vuckovic, J. 2009
  • Quantum dots in photonic crystals: from quantum information processing to ultra-low energy optical switching Vuckovic, J. 2009
  • Room temperature 1.6 μm electroluminescence from Ge light emitting diode on Si substrate Optics Express Cheng, S., Lu, J., Shambat, G., Yu, H., Saraswat, K., Vuckovic, J. 2009; 17 (12): 10019-10024
  • Electrically controlled optical modulation in a photonic crystal circuit Optics Express Englund, D., Ellis, B., Sarmiento, T., Edwards, E., Miller, David, A. B., Harris, J., Vuckovic, J. 2009; 17: 15409-15419
  • An optical modulator based on a strongly coupled quantum dot-cavity system in a p-i-n junction Optics Express Englund, D., Faraon, A., Majumdar, A., Stoltz, N., Petroff, P., Vuckovic, J. 2009; 17: 18651-18658
  • Second harmonic generation in gallium phosphide photonic crystal nanocavities with ultralow continuous pump power Optics Express Rivoire, K., Lin, Z., Hatami, F., Masselink, W., Ted, Vuckovic, J. 2009; 17: 22609-22615
  • Photon blockade in a photonic crystal cavity with a strongly coupled quantum dot Conference on Advanced Optical Concepts in Quantum Computing, Memory, and Communication II Faraon, A., Fushman, I., Englund, D., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2009

    View details for DOI 10.1117/12.809430

    View details for Web of Science ID 000285375700005

  • Electrically controlled single quantum dot switching in photonic crystal resonators Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2009) Faraon, A., Majumdar, A., Vuckovic, J. IEEE. 2009: 2311–2312
  • Engineering Anti-bunching via Photon Blockade in Photonic Crystal Cavity-Quantum Dot Systems Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2009) Majumdar, A., Faraon, A., Vuckovic, J. IEEE. 2009: 2054–2055
  • Quantum Dots in Photonic Crystals: From Single photon sources to single photon nonlinear optics Conference on Physics and Simulation of Optoelectronic Devices XVII Majumdar, A., Faraon, A., Englund, D., Fushman, I., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2009

    View details for DOI 10.1117/12.816153

    View details for Web of Science ID 000285749000008

  • Single photon nonlinear optics in photonic crystals Conference on Advanced Optical Concepts in Quantum Computing, Memory, and Communication II Englund, D., Fushman, I., Faraon, A., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2009

    View details for DOI 10.1117/12.809305

    View details for Web of Science ID 000285375700007

  • Probing High-Q Photonic Crystal Resonances With Fluorescent Molecules Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2009) Rivoire, K., Kinkhabwala, A., Moerner, W. E., Vuckovic, J., Hatami, F., Masselink, W. T., Avlasevich, Y., Muellen, K. IEEE. 2009: 2353–2354
  • Two-Photon Excitation and Emission in Quantum Dots coupled to Photonic Crystal Nanocavities Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2009) Lin, Z., Vuckovic, J. IEEE. 2009: 2313–2314
  • Ultrafast All-Optical Switching with a Single Quantum Dot Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2009) Englund, D., Faraon, A., Majumdar, A., Fushman, I., Vuckovic, J. IEEE. 2009: 2082–2083
  • Plasmonic Metal-Insulator-Metal Structures for Interaction with Silicon Nanocrystals Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2009) Gong, Y., Cheng, S., Nishi, Y., Vuckovic, J. IEEE. 2009: 1818–1819
  • Direct Band Gap Tensile-Strained Germanium Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2009) Huo, Y., Lin, H., Rong, Y., Makarova, M., Kamins, T. I., Vuckovic, J., Harris, J. S. IEEE. 2009: 824–825
  • Coherent generation of non-classical light on a chip via photon-induced tunnelling and blockade NATURE PHYSICS Faraon, A., Fushman, I., Englund, D., Stoltz, N., Petroff, P., Vuckovic, J. 2008; 4 (11): 859-863

    View details for DOI 10.1038/nphys1078

    View details for Web of Science ID 000262289800016

  • Gallium phosphide photonic crystal nanocavities in the visible APPLIED PHYSICS LETTERS Rivoire, K., Faraon, A., Vuckovic, J. 2008; 93 (6)

    View details for DOI 10.1063/1.2971200

    View details for Web of Science ID 000258491000054

  • Dipole induced transparency in waveguide coupled photonic crystal cavities OPTICS EXPRESS Faraon, A., Fushman, I., Englund, D., Stoltz, N., Petroff, P., Vuckovic, J. 2008; 16 (16): 12154-12162

    Abstract

    We demonstrate dipole induced transparency in an integrated photonic crystal device. We show that a single weakly coupled quantum dot can control the transmission of photons through a photonic crystal cavity that is coupled to waveguides on the chip. Control over the quantum dot and cavity resonance via local temperature tuning, as well as efficient out-coupling with an integrated grating structure is demonstrated.

    View details for Web of Science ID 000258368600055

    View details for PubMedID 18679491

  • Ultrafast photonic crystal lasers LASER & PHOTONICS REVIEWS Englund, D., Atlug, H., Ellis, B., Vuckovic, J. 2008; 2 (4): 264-274
  • Enhanced light emission in photonic crystal nanocavities with erbium-doped silicon nanocrystals (vol 92, art no 161107, 2008) APPLIED PHYSICS LETTERS Makarova, M., Sih, V., Warga, J., Li, R., Dal Negro, L., Vuckovic, J. 2008; 92 (21)

    View details for DOI 10.1063/1.2937311

    View details for Web of Science ID 000256303500091

  • Controlled phase shifts with a single quantum dot SCIENCE Fushman, I., Englund, D., Faraon, A., Stoltz, N., Petroff, P., Vuckovic, J. 2008; 320 (5877): 769-772

    Abstract

    Optical nonlinearities enable photon-photon interaction and lie at the heart of several proposals for quantum information processing, quantum nondemolition measurements of photons, and optical signal processing. To date, the largest nonlinearities have been realized with single atoms and atomic ensembles. We show that a single quantum dot coupled to a photonic crystal nanocavity can facilitate controlled phase and amplitude modulation between two modes of light at the single-photon level. At larger control powers, we observed phase shifts up to pi/4 and amplitude modulation up to 50%. This was accomplished by varying the photon number in the control beam at a wavelength that was the same as that of the signal, or at a wavelength that was detuned by several quantum dot linewidths from the signal. Our results present a step toward quantum logic devices and quantum nondemolition measurements on a chip.

    View details for DOI 10.1126/science.1154643

    View details for Web of Science ID 000255644400032

    View details for PubMedID 18467584

  • Enhanced light emission in photonic crystal nanocavities with Erbium-doped silicon nanocrystals APPLIED PHYSICS LETTERS Makarova, M., Sih, V., Warga, J., Li, R., Dal Negro, L., Vuckovic, J. 2008; 92 (16)

    View details for DOI 10.1063/1.2916711

    View details for Web of Science ID 000255456100007

  • Local tuning of photonic crystal cavities using chalcogenide glasses APPLIED PHYSICS LETTERS Faraon, A., Englund, D., Bulla, D., Luther-Davies, B., Eggleton, B. J., Stoltz, N., Petroff, P., Vuckovic, J. 2008; 92 (4)

    View details for DOI 10.1063/1.2839308

    View details for Web of Science ID 000252860400098

  • Spontaneous emission control in high-extraction efficiency plasmonic crystals OPTICS EXPRESS Iwase, H., Englund, D., Vuckovic, J. 2008; 16 (1): 426-434

    Abstract

    We experimentally and theoretically investigate exciton-field coupling for the surface plasmon polariton (SPP) in waveguide-confined (WC) anti-symmetric modes of hexagonal plasmonic crystals in InP-TiOAu-TiO-Si heterostructures. The radiative decay time of the InP-based transverse magnetic (TM)-strained multi-quantum well (MQW) coupled to the SPP modes is observed to be 2.9-3.7 times shorter than that of a bare MQW wafer. Theoretically we find that 80 % of the enhanced photoluminescence (PL) is emitted into SPP modes, and 17 % of the enhanced PL is redirected into WC-anti-symmetric modes. In addition to the direct coupling of the excitons to the plasmonic modes, this demonstration is also useful for the development of high-temperature SPP lasers, the development of highly integrated photo-electrical devices, or miniaturized biosensors.

    View details for Web of Science ID 000252234800049

    View details for PubMedID 18521174

  • Silicon Based Colloidal Quantum Dot Photonic Crystal Light Emitters at Telecom Wavelengths Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2008) Ellis, B., Cademartiri, L., Fushman, I., Ozin, G. A., Vuckovic, J. IEEE. 2008: 1718–1719
  • Quantum dots in photonic crystals: from quantum information processing to single photon nonlinear optics Vuckovic, J. 2008
  • Gallium phosphide photonic crystal cavities in the visible Rivoire, K., Faraon, A., Vuckovic, J. 2008
  • Controlling photonic crystal cavity reflectivity with a single quantum dot: from quantum information processing to single photon nonlinear optics Vuckovic, J., Faraon, A., Fushman, I., Englund, D. 2008
  • Quantum dots in photonic crystals: from quantum information processing to single photon nonlinear optics Vuckovic, J. 2008
  • Probing a quantum dot in the weak coupling regime Fushman, I., Englund, D., Faraon, A., Vuckovic, J. 2008
  • Quantum dots in photonic crystals: from quantum information processing to single photon nonlinear optics Vuckovic, J. 2008
  • Silicon Nanophotonics Englund, D., Vuckovic, J. 2008
  • Classical and quantum light sources based on photonic crystals Englund, D., Vuckovic, J. 2008
  • Cavity QED, single photon nonlinear optics, and quantum information processing with quantum dots in photonic crystals Vuckovic, J., Englund, D., Faraon, A., Fushman, I. 2008
  • Single photon nonlinear optics with quantum dots in photonic crystal resonators Faraon, A., Englund, D., Fushman, I., Vuckovic, J. 2008
  • Quantum dot -photonic crystal devices for quantum information processing Faraon, A., Fushman, I., Englund, D., Vuckovic, J. 2008
  • Quantum information processing on photonic crystal chips Englund, D., Faraon, A., Fushman, I., Vuckovic, J. 2008
  • Coherent access of a quantum dot strongly coupled to a nanocavity Englund, D., Faraon, A., Fushman, I., Vuckovic, J. 2008
  • Single photon nonlinear optics with quantum dots in photonic crystal resonators Faraon, A., Englund, D., Fushman, I., Stoltz, N., Petroff, P., Vuckovic, J. 2008
  • Dipole induced transparency in waveguide coupled photonic crystal cavities Faraon, A., Fushman, I., Englund, D., Stoltz, N., Petroff, P., Vuckovic, J. 2008
  • Gallium Phosphide Photonic Crystal Nanocavities in the Visible Rivoire, K., Faraon, A., Vuckovic, J. 2008
  • Plasmonic gratings for interaction with quantum emitters Gong, Y., Lu, J., Cheng, S., Nishi, Y., Vuckovic, J. 2008
  • Quantum information processing with quantum dots in photonic crystals Vuckovic, J., Englund, D., Faraon, A., Fushman, I., Sih, V. 2008
  • Ultrafast photonic crystal nanocavity lasers and optical switches Vuckovic, J., Englund, D., Fushman, I., Ellis, B., Altug, H. 2008
  • Controlled phase shift with a single quantum dot Science Fushman, I., Englund, D., Faraon, A., Stoltz, N., Petroff, P., Vuckovic, J. 2008; 320: 769-772
  • Gallium-Phosphide Photonic Crystal Nanocavities in the Visible Applied Physics Letters Rivoire, K., Faraon, A., Vuckovic, J. 2008; 93
  • Spontaneous emission control in plasmonic crystal based on InP-TiO-Au-TiO-Si heterostructure Iwase, H., Englund, D., Vuckovic, J. 2008
  • Si-based colloidal quantum dot photonic crystal light emitters at telecom wavelengths Ellis, B., Cademartiri, L., Ozin, G., Vuckovic, J. 2008
  • Realization of giant optical nonlinearities in a quantum dot coupled to a nanocavity Englund, D., Faraon, A., Fushman, I., Stoltz, N., Petroff, P., Vuckovic, J. 2008
  • Quantum information processing on photonic crystal chips SPIE Newsroom Englund, D., Faraon, A., Fushman, I., Vuckovic, J. 2008
  • Spontaneous emission control in high extraction efficiency plasmonic crystals Optics Express Iwase, H., Englund, D., Vuckovic, J. 2008; 16 (1): 426-434
  • Coherent generation of nonclassical light on a chip via photon-induced tunneling and blockade Nature Physics Faraon, A., Fushman, I., Englund, D., Stoltz, N., Petroff, P., Vuckovic, J. 2008; 4: 859 - 863
  • Ultrafast photonic crystal nanocavity lasers and, optical switches Conference on Physics and Simulation of Optoelectronic Devices XVI Fushman, I., Englund, D., Altug, H., Ellis, B., Faraon, A., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2008

    View details for DOI 10.1117/12.784422

    View details for Web of Science ID 000255942900018

  • Plasmonic Nanocavity for Interaction with Colloidal Quantum Dots Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2008) Gong, Y., Vuckovic, J. IEEE. 2008: 3627–3628
  • Coherent Probing and Saturation of a Strongly Coupled Quantum Dot Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2008) Englund, D., Faraon, A., Fushman, I., Vuckovic, J. IEEE. 2008: 3637–3638
  • Quantum dot-photonic crystal chips for quantum information processing Conference on Advanced Optical Concepts in Quantum Computing, Memory and Communication Faraon, A., Englund, D., Fushman, I., Sih, V., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2008

    View details for DOI 10.1117/12.772310

    View details for Web of Science ID 000254649100006

  • Enhanced Erbium Emission in Photonic Crystal Nanocavities Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2008) Makarova, M., Sih, V., Warga, J., Dal Negro, L., Vuckovic, J. IEEE. 2008: 1431–1432
  • Photonic crystal chips for optical interconnects and quantum information processing Conference on Photonic Crystal Materials and Devices VII Englund, D., Faraon, A., Fushman, I., Ellis, B., Altug, H., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2008

    View details for DOI 10.1117/12.774680

    View details for Web of Science ID 000254740000008

  • Local tuning of photonic crystal cavities using chalcogenide glasses Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS 2008) Faraon, A., Englund, D., Bulla, D., Luther-Davies, B., Eggleton, B. J., Stoltz, N., Petroff, P., Vuckovic, J. IEEE. 2008: 851–852
  • Probing the interaction between a single quantum dot and a photonic crystal cavity 34th International Symposium on Compound Semiconductors Fushman, I., Englund, D., Faraon, A., Vuckovic, J. WILEY-V C H VERLAG GMBH. 2008: 2808–15
  • Photonic crystal chips for optical communications and quantum information processing Conference on Active Photonic Crystals II Englund, D., Fushman, I., Faraon, A., Ellis, B., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2008

    View details for DOI 10.1117/12.796817

    View details for Web of Science ID 000260634400006

  • Controlling cavity reflectivity with a single quantum dot NATURE Englund, D., Faraon, A., Fushman, I., Stoltz, N., Petroff, P., Vuckovic, J. 2007; 450 (7171): 857-861

    Abstract

    Solid-state cavity quantum electrodynamics (QED) systems offer a robust and scalable platform for quantum optics experiments and the development of quantum information processing devices. In particular, systems based on photonic crystal nanocavities and semiconductor quantum dots have seen rapid progress. Recent experiments have allowed the observation of weak and strong coupling regimes of interaction between the photonic crystal cavity and a single quantum dot in photoluminescence. In the weak coupling regime, the quantum dot radiative lifetime is modified; in the strong coupling regime, the coupled quantum dot also modifies the cavity spectrum. Several proposals for scalable quantum information networks and quantum computation rely on direct probing of the cavity-quantum dot coupling, by means of resonant light scattering from strongly or weakly coupled quantum dots. Such experiments have recently been performed in atomic systems and superconducting circuit QED systems, but not in solid-state quantum dot-cavity QED systems. Here we present experimental evidence that this interaction can be probed in solid-state systems, and show that, as expected from theory, the quantum dot strongly modifies the cavity transmission and reflection spectra. We show that when the quantum dot is coupled to the cavity, photons that are resonant with its transition are prohibited from entering the cavity. We observe this effect as the quantum dot is tuned through the cavity and the coupling strength between them changes. At high intensity of the probe beam, we observe rapid saturation of the transmission dip. These measurements provide both a method for probing the cavity-quantum dot system and a step towards the realization of quantum devices based on coherent light scattering and large optical nonlinearities from quantum dots in photonic crystal cavities.

    View details for DOI 10.1038/nature06234

    View details for Web of Science ID 000251394900051

    View details for PubMedID 18064008

  • Efficient terahertz room-temperature photonic crystal nanocavity laser APPLIED PHYSICS LETTERS Englund, D., Altug, H., Fushman, I., Vuckovic, J. 2007; 91 (7)

    View details for DOI 10.1063/1.2770767

    View details for Web of Science ID 000248866600026

  • Low-threshold surface-passivated photonic crystal nanocavity laser APPLIED PHYSICS LETTERS Englund, D., Altug, H., Vuckovic, J. 2007; 91 (7)

    View details for DOI 10.1063/1.2769957

    View details for Web of Science ID 000248866600024

  • Genetic optimization of photonic bandgap structures OPTICS EXPRESS Goh, J., Fushman, I., Englund, D., Vuckovic, J. 2007; 15 (13): 8218-8230

    Abstract

    We investigate the use of a Genetic Algorithm (GA) to design a set of photonic crystals (PCs) in one and two dimensions. Our flexible design methodology allows us to optimize PC structures for specific objectives. In this paper, we report the results of several such GA-based PC optimizations. We show that the GA performs well even in very complex design spaces, and therefore has great potential as a robust design tool in a range of PC applications.

    View details for Web of Science ID 000248361200035

    View details for PubMedID 19547150

  • Local quantum dot tuning on photonic crystal chips APPLIED PHYSICS LETTERS Faraon, A., Englund, D., Fushman, I., Vuckovic, J., Stoltz, N., Petroff, P. 2007; 90 (21)

    View details for DOI 10.1063/1.2742789

    View details for Web of Science ID 000246775900075

  • Analysis of a quantum nondemolition measurement scheme based on Kerr nonlinearity in photonic crystal waveguides OPTICS EXPRESS Fushman, I., Vuckovic, J. 2007; 15 (9): 5559-5571

    Abstract

    We discuss the feasibility of a quantum nondemolition measurement (QND) of photon number based on cross phase modulation due to the Kerr effect in photonic crystal waveguides (PCW's). In particular, we derive the equations for two modes propagating in PCW's and their coupling by a third order nonlinearity. The reduced group velocity and small cross-sectional area of the PCW lead to an enhancement of the interaction relative to bulk materials. We show that in principle, such experiments may be feasible with current photonic technologies, although they are limited by material properties. Our analysis of the propagation equations is sufficiently general to be applicable to the study of soliton formation, all-optical switching and can be extended to processes involving other orders of the nonlinearity.

    View details for Web of Science ID 000246395000034

    View details for PubMedID 19532813

  • Generation and transfer of single photons on a photonic crystal chip OPTICS EXPRESS Englund, D., Faraon, A., Zhang, B., Yamamoto, Y., Vuckovic, J. 2007; 15 (9): 5550-5558

    Abstract

    We present a basic building block of a quantum network consisting of a quantum dot coupled to a source cavity, which in turn is coupled to a target cavity via a waveguide. The single photon emission from the high-Q/V source cavity is characterized by twelve-fold spontaneous emission (SE) rate enhancement, SE coupling efficiency beta ~ 0.98 into the source cavity mode, and mean wavepacket indistinguishability of ~67%. Single photons are efficiently transferred into the target cavity via the waveguide, with a target/source field intensity ratio of 0.12 +/- 0.01. This system shows great promise as a building block of future on-chip quantum information processing systems.

    View details for Web of Science ID 000246395000033

    View details for PubMedID 19532812

  • Dynamics of quantum dot photonic crystal lasers APPLIED PHYSICS LETTERS Ellis, B., Fushman, I., Englund, D., Zhang, B., Yamamoto, Y., Vuckovic, J. 2007; 90 (15)

    View details for DOI 10.1063/1.2720753

    View details for Web of Science ID 000245690700002

  • Ultrafast nonlinear optical tuning of photonic crystal cavities APPLIED PHYSICS LETTERS Fushman, I., Waks, E., Englund, D., Stoltz, N., Petroff, P., Vuckovic, J. 2007; 90 (9)

    View details for DOI 10.1063/1.2710080

    View details for Web of Science ID 000244591700018

  • Efficient photonic crystal cavity-waveguide couplers APPLIED PHYSICS LETTERS Faraon, A., Waks, E., Englund, D., Fushman, I., Vuckovic, J. 2007; 90 (7)

    View details for DOI 10.1063/1.2472534

    View details for Web of Science ID 000244249800060

  • Design of plasmon cavities for solid-state cavity quantum electrodynamics applications APPLIED PHYSICS LETTERS Gong, Y., Vuckovic, J. 2007; 90 (3)

    View details for DOI 10.1063/1.2431450

    View details for Web of Science ID 000243582400079

  • Ultra Fast Nonlinear Optical Tuning of Photonic Crystal Cavities Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference Fushman, I., Englund, D., Vuckovic, J., Waks, E., Stoltz, N., Petroff, P. IEEE. 2007: 1718–1719
  • Efficient ultrafast photonic crystal lasers in GaAs and InP Englund, D., Fushman, I., Altug, H., Vuckovic, J. 2007
  • Analytic Photonic Crystal Cavity Design Englund, D., Fushman, I., Vuckovic, J. 2007
  • Ultrafast nonlinear optical tuning of photonic crystal cavities Fushman, I., Englund, D., Vuckovic, J., Waks, E., Stoltz, N., Petroff, P. 2007
  • Plasmon cavities for solid state cavity QED Gong, Y., Vuckovic, J. 2007
  • Ultra Fast Nonlinear Optical Tuning of Photonic Crystal Cavities Applied Physics Letters,Also highlighted in Nature Photonics Fushman, I., Waks, E., Englund, D., Stoltz, N., Petroff, P., Vuckovic, J. 2007; 90, 1: 203
  • Quantum networking with quantum dots coupled to micro-cavities Waks, E., Sridharan, D., Vuckovic, J. 2007
  • Cavity QED with quantum dots in photonic crystals Vuckovic, J., Faraon, A., Englund, D., Fushman, I. 2007
  • Coupled photonic crystal nanocavity arrays Vuckovic, J., Altug, H., Englund, D., Ellis, B. 2007
  • Local Quantum Dot tuning on photonic crystal chips Faraon, A., Englund, D., Fushman, I., Vuckovic, J., Stoltz, N., Petroff, P. 2007
  • Silicon CMOS compatible Photonic Crystal Light emitters Makarova, M., Vuckovic, J. 2007
  • Passivation effects on optical and material characteristics of silicon nanocrystals by high pressure water annealing and forming gas annealing Sanda, H., Makarova, M., Hagemeier, J., McVittie, J., Vuckovic, J., Nishi, Y. 2007
  • Terahertz Modulation Room-Temperature Photonic Crystal Nanocavity Laser Englund, D., Fushman, I., Vuckovic, J., Altug, H. 2007
  • Controlling cavity reflectivity with a single quantum dot Englund, D., Faraon, A., Fushman, I., Vuckovic, J. 2007
  • Photoluminescence decay dynamics of silicon-rich silicon nitride films in photonic crystal nanocavity Makarova, M., Vuckovic, J., Sanda, H., Nishi, Y. 2007
  • Photonic crystal chips for classical and quantum information processing Vuckovic, J., Fushman, I., Faraon, A., Englund, D., Ellis, B., Gong, Y. 2007
  • Design of plasmon cavities for solid-state cavity QED applications Applied Physics Letters Gong, Y., Vuckovic, J. 2007; 90
  • Efficient photonic crystal cavity waveguide couplers Applied Physics Letters Faraon, A., Waks, E., Englund, D., Fushman, I., Vuckovic, J. 2007; 90
  • Quantum networking with quantum dots coupled to micro-cavities Conference on Quantum Communications and Quantum Imaging V Waks, E., Sridharan, D., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2007

    View details for DOI 10.1117/12.732263

    View details for Web of Science ID 000252148000014

  • Quantum networking with quantum dots coupled to micro-cavities Conference on Quantum Communications Realized Waks, E., Sridharan, D., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2007

    View details for DOI 10.1117/12.732259

    View details for Web of Science ID 000251541000004

  • Nonlinear optical processes in photonic nanocavities Vuckovic, J., Fushman, I., Faraon, A., Englund, D., Ellis, B. 2007
  • Efficient Terahertz room-temperature photonic crystal laser Englund, D., Altug, H., Fushman, I., Vuckovic, J. 2007
  • Analytic Photonic Crystal Cavity Design Englund, D., Fushman, I., Vuckovic, J. 2007
  • Dynamics of Quantum Dot Photonic Crystal Lasers Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference Ellis, B., Fushman, I., Englund, D., Zhang, B., Yamamoto, Y., Vuckovic, J. IEEE. 2007: 145–146
  • Analysis of the Spontaneous Emission Rate Enhancement by Surface Plasmons in a Thin Metallic Layer Embedded in Semiconductor Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference Iwase, H., Vuckovic, J. IEEE. 2007: 2526–2527
  • Photonic Crystal Surface Mode Laser Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference Altug, H., Englund, D., Vuckovic, J. IEEE. 2007: 1777–1778
  • Photoluminescence decay dynamics of silicon-rich silicon nitride film in photonic crystal nanocavity 20th Annual Meeting of the IEEE-Lasers-and-Electro-Optics-Society Makarova, M., Vuckovic, J., Sanda, H., Nishi, Y. IEEE. 2007: 329–330
  • Low-threshold ultrafast surface-passivated photonic crystal nanocavity lasers 20th Annual Meeting of the IEEE-Lasers-and-Electro-Optics-Society Englund, D., Fushman, I., Vuckovic, J., Altug, H. IEEE. 2007: 121–122
  • Local On-Chip Temperature Tuning of InGaAs Quantum Dots Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference Faraon, A., Englund, D., Fushman, I., Vuckovic, J., Stoltz, N., Petroff, P. IEEE. 2007: 1023–1024
  • Patterned femtosecond laser excitation of terahertz leaky modes in GaAs photonic crystals APPLIED PHYSICS LETTERS Jukam, N., Yee, C., Sherwin, M. S., Fushman, I., Vuckovic, J. 2006; 89 (24)

    View details for DOI 10.1063/1.2399439

    View details for Web of Science ID 000242886500012

  • Silicon-based photonic crystal nanocavity light emitters APPLIED PHYSICS LETTERS Makarova, M., Vuckovic, J., Sanda, H., Nishi, Y. 2006; 89 (22)

    View details for DOI 10.1063/1.2396903

    View details for Web of Science ID 000242538500001

  • Ultrafast photonic crystal nanocavity laser NATURE PHYSICS Altug, H., Englund, D., Vuckovic, J. 2006; 2 (7): 484-488

    View details for DOI 10.1038/nphys343

    View details for Web of Science ID 000239146900024

  • Generation and manipulation of nonclassical light using photonic crystals 12th International Conference on Modulated Semiconductor Structures (MSS12) Vuckovic, J., Englund, D., Fattal, D., Waks, E., Yamamoto, Y. ELSEVIER SCIENCE BV. 2006: 466–70
  • Dipole induced transparency in drop-filter cavity-waveguide systems PHYSICAL REVIEW LETTERS Waks, E., Vuckovic, J. 2006; 96 (15)

    Abstract

    We show that a waveguide that is normally opaque due to interaction with a drop-filter cavity can be made transparent when the drop filter is also coupled to a dipole, even when the vacuum Rabi frequency of the dipole is much less than the cavity decay rate. The condition for transparency is simply achieving large Purcell factors. We describe how this effect can be useful for designing quantum repeaters for long distance quantum communication.

    View details for DOI 10.1103/PhysRevLett.96.153601

    View details for Web of Science ID 000236969700025

    View details for PubMedID 16712156

  • A direct analysis of photonic nanostructures OPTICS EXPRESS Englund, D., Vuckovic, J. 2006; 14 (8): 3472-3483

    Abstract

    We present a method for directly analyzing photonic nanodevices and apply it to photonic crystal cavities. Two-dimensional photonic crystals are scanned and reproduced in computer memory for Finite Difference Time Domain simuations. The results closely match experimental observations, with a fidelity far beyond that for idealized structures. This analysis allows close examination of error mechanisms and analytical error models.

    View details for Web of Science ID 000237144700043

    View details for PubMedID 19516493

  • Dispersive properties and large Kerr nonlinearities using dipole-induced transparency in a single-sided cavity PHYSICAL REVIEW A Waks, E., Vuckovic, J. 2006; 73 (4)
  • Theoretical and experimental investigation of efficient photonic crystal cavity-waveguide couplers 19th Annual Meeting of the IEEE-Lasers-and-Electro-Optics-Society Faraon, A., Waks, E., Englund, D., Vuckovic, J. IEEE. 2006: 837–838
  • Quantum optics and quantum information processing with photonic crystal devices Vuckovic, J. 2006
  • Applications of Photonic Crystal Microcavity Arrays Altug, H., Vuckovic, J. 2006
  • Design and Experimental Characterization of Photonic Crystal Cavities with Embedded Colloidal Quantum Dots Fushman, I., Englund, D., Vuckovic, J. 2006
  • Patterned Femtosecond Laser Excitation of Terahertz Radiation in GaAs Photonic Crystals Jukam, N., Yee, C., Fushman, I., Vuckovic, J., Sherwin, Mark, S. 2006
  • Photonic Crystal Nanocavity Arrays Invited Article for IEEE LEOS Newsletter Altug, H., Vuckovic, J. 2006; 20 (2): 4-11
  • Photonic crystal devices for classical and quantum information processing Vuckovic, J. 2006
  • An Efficient Source of Single Indistinguishable Photons Englund, D., Goetzinger, S., Faraon, A., Vuckovic, J., Yamamoto, Y. 2006
  • Ultrafast Photonic Crystal Nanocavity Array Laser Altug, H., Englund, D., Vuckovic, J. 2006
  • Dipole Induced Transparency in Photonic Crystal Cavity Waveguide Systems Waks, E., Vuckovic, J. 2006
  • Ultra-Fast Photonic Crystal Nanolasers Nature Physics Altug, H., Englund, D., Vuckovic, J. 2006; 2: 484-488
  • Silicon based photonic crystal nanocavity light emitters Applied Physics Letters Makarova, M., Vuckovic, J., Sanda, H., Nishi, Y. 2006; 89
  • Photonic crystal devices for classical and quantum information processing Vuckovic, J. 2006
  • Silicon-based Photonic Crystal Nanocavity Light emitters Makarova, M., Vuckovic, J., Sanda, H., Nishi, Y. 2006
  • Silicon-based Photonic Crystal Nanocavity Light emitters Makarova, M., Vuckovic, J., Sanda, H., Nishi, Y. 2006
  • Nanoscale and quantum photonic devices Vuckovic, J. 2006
  • Nanophotonic devices for quantum information processing Waks, E., Englund, D., Faraon, A., Fushman, I., Vuckovic, J. 2006
  • Generation and transfer of single photons on a photonic crystal chip Englund, D., Faraon, A., Vuckovic, J. 2006
  • Silicon-based Photonic Crystal Nanocavity Light emitters Makarova, M., Vuckovic, J., Sanda, H., Nishi, Y. 2006
  • Fourier Space Design of Efficient Photonic Crystal Cavity-Waveguide Couplers Faraon, A., Waks, E., Englund, D., Fushman, I., Vuckovic, J. 2006
  • Two Dimensional Porous Silicon Photonic Crystal Light Emitters Makarova, M., Vuckovic, J., Sanda, H., Nishi, Y. 2006

    View details for DOI 0.1109/CLEO.2006.4627619

  • An Efficient Source of Single Indistinguishable Photons Englund, D., Goetzinger, S., Faraon, A., Vuckovic, J., Yamamoto, Y. 2006
  • High Modulation Speed Photonic Crystal Nanocavity Array Laser Altug, H., Englund, D., Vuckovic, J. 2006
  • Quantum information processing with quantum dot-photonic crystal devices Vuckovic, J., Fushman, I., Englund, D., Faraon, A., Waks, E. 2006
  • Dispersive Properties and Large Kerr Nonlinearities Using Dipole Induced Transparency in a Single-Sided Cavity Physical Review A Waks, E., Vuckovic, J. 2006; 73
  • Nanophotonic devices for quantum information processing Vuckovic, J., Englund, D., Waks, E., Fushman, I., Faraon, A. 2006
  • Quantum information processing with quantum dot-photonic crystal devices Vuckovic, J., Englund, D., Fushman, I., Faraon, A., Waks, E. 2006
  • Theoretical and experimental investigation of efficient photonic crystal cavity-waveguide couplers Faraon, A., Waks, E., Englund, D., Vuckovic, J. 2006
  • Dipole Induced Transparency in drop filter cavity-waveguide systems Physical Review Letters Waks, E., Vuckovic, J. 2006; 96
  • A Direct Analysis of Real Photonic Nanostructures Optics Express Englund, D., Vuckovic, J. 2006; 14: 3472-3483
  • Photonic crystal devices for classical and quantum information processing Vuckovic, J. 2006
  • Photonic crystal devices for classical and quantum information processing Vuckovic, J. 2006
  • Quantum information processing with quantum dots in photonic crystals Fushman, I., Vuckovic, J. 2006
  • High speed dynamics of photonic crystal nanocavity laser 19th Annual Meeting of the IEEE-Lasers-and-Electro-Optics-Society Altug, H., Englund, D., Vuckovic, J. IEEE. 2006: 621–622
  • Coupled arrays of photonic crystal nanocavities and their applications Conference on Photonic Crystal Materials and Devices IV Altug, H., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2006

    View details for DOI 10.1117/12.647282

    View details for Web of Science ID 000238247900008

  • Coupling of PbS quantum dots to photonic crystal cavities at room temperature Conference on Photonic Crystal Materials and Devices IV Fushman, I., Englund, D., Vuckovic, J. SPIE-INT SOC OPTICAL ENGINEERING. 2006

    View details for DOI 10.1117/12.645341

    View details for Web of Science ID 000238247900026

  • Photonic crystal microcavities for classical and quantum information processing 8th International Conference on Transparent Optical Networks Vuckovic, J., Altug, H., Englund, D., Faraon, A., Fushman, I., Waks, E. IEEE. 2006: 75–76
  • Coupling of PbS quantum dots to photonic crystal cavities at room temperature APPLIED PHYSICS LETTERS Fushman, I., Englund, D., Vuckovic, J. 2005; 87 (24)

    View details for DOI 10.1063/1.2138792

    View details for Web of Science ID 000233825900002

  • Photonic crystal nanocavity array laser OPTICS EXPRESS Altug, H., Vuckovic, J. 2005; 13 (22): 8819-8828

    Abstract

    We demonstrate a new type of laser composed of an array of coupled photonic crystal nanocavities that enables high differential quantum efficiency and output power, together with a low threshold power comparable to those of single photonic crystal cavity lasers. In our experiment, the laser efficiency increases faster than the lasing threshold with an increase in the number of coupled cavities. We observe a single mode lasing and measure the output powers that are two orders of magnitude higher than in single nanocavity lasers. Finally, we study the laser behavior theoretically and show that the benefits resulting from the coupling of cavities are due to strong cavity effects such as the enhanced spontaneous emission rate.

    View details for Web of Science ID 000232977500015

    View details for PubMedID 19498914

  • General recipe for designing photonic crystal cavities OPTICS EXPRESS Englund, D., Fushman, I., Vuckovic, J. 2005; 13 (16): 5961-5975

    Abstract

    We describe a general recipe for designing high-quality factor (Q) photonic crystal cavities with small mode volumes. We first derive a simple expression for out-of-plane losses in terms of the k-space distribution of the cavity mode. Using this, we select a field that will result in a high Q. We then derive an analytical relation between the cavity field and the dielectric constant along a high symmetry direction, and use it to confine our desired mode. By employing this inverse problem approach, we are able to design photonic crystal cavities with Q > 4 ? 10(6) and mode volumes V ~ (lambda/n)(3). Our approach completely eliminates parameter space searches in photonic crystal cavity design, and allows rapid optimization of a large range of photonic crystal cavities. Finally, we study the limit of the out-of-plane cavity Q and mode volume ratio.

    View details for Web of Science ID 000231109600007

    View details for PubMedID 19498603

  • Controlling the spontaneous emission rate of single quantum dots in a two-dimensional photonic crystal PHYSICAL REVIEW LETTERS Englund, D., Fattal, D., Waks, E., Solomon, G., Zhang, B., Nakaoka, T., Arakawa, Y., Yamamoto, Y., Vuckovic, J. 2005; 95 (1)

    Abstract

    We observe large spontaneous emission rate modification of individual InAs quantum dots (QDs) in a 2D photonic crystal with a modified, high-Q single-defect cavity. Compared to QDs in a bulk semiconductor, QDs that are resonant with the cavity show an emission rate increase of up to a factor of 8. In contrast, off-resonant QDs indicate up to fivefold rate quenching as the local density of optical states is diminished in the photonic crystal. In both cases, we demonstrate photon antibunching, showing that the structure represents an on-demand single photon source with a pulse duration from 210 ps to 8 ns. We explain the suppression of QD emission rate using finite difference time domain simulations and find good agreement with experiment.

    View details for DOI 10.1103/PhysRevLett.95.013904

    View details for Web of Science ID 000230275500032

    View details for PubMedID 16090618

  • Coupled mode theory for photonic crystal cavity-waveguide interaction OPTICS EXPRESS Waks, E., Vuckovic, J. 2005; 13 (13): 5064-5073

    Abstract

    We derive a coupled mode theory for the interaction of an optical cavity with a waveguide that includes waveguide dispersion. The theory can be applied to photonic crystal cavity waveguide structures. We derive an analytical solution to the add and drop spectra arising from such interactions in the limit of linear dispersion. In this limit, the spectra can accurately predict the cold cavity quality factor (Q) when the interaction is weak. We numerically solve the coupled mode equations for the case of a cavity interacting with the band edge of a periodic waveguide, where linear dispersion is no longer a good approximation. In this regime, the density of states can distort the add and drop spectra. This distortion can lead to more than an order of magnitude overestimation of the cavity Q.

    View details for Web of Science ID 000230167500029

    View details for PubMedID 19498494

  • Polarization control and sensing with two-dimensional coupled photonic crystal microcavity arrays OPTICS LETTERS Altug, H., Vuckovic, J. 2005; 30 (9): 982-984

    Abstract

    We have experimentally studied polarization properties of the two-dimensional coupled photonic crystal microcavity arrays and observed a strong polarization dependence of the transmission and reflection of light from the structures-effects that can be employed in building miniaturized polarizing optical components. Moreover, by combining these properties with a strong sensitivity of the coupled bands on the surrounding refractive index, we have demonstrated a detection of small refractive-index changes in the environment, which is useful for construction of biochemical sensors.

    View details for Web of Science ID 000228562600012

    View details for PubMedID 15906977

  • Fabrication of InAs quantum dots in AlAs/GaAs DBR pillar microcavities for single photon sources JOURNAL OF APPLIED PHYSICS Zhang, B. Y., Solomon, G. S., Pelton, M., Plant, J., Santori, C., Vuckovic, J., Yamamoto, Y. 2005; 97 (7)

    View details for DOI 10.1063/1.1882764

    View details for Web of Science ID 000228287300018

  • Experimental demonstration of the slow group velocity of light in two-dimensional coupled photonic crystal microcavity arrays APPLIED PHYSICS LETTERS Altug, H., Vuckovic, J. 2005; 86 (11)

    View details for DOI 10.1063/1.1882755

    View details for Web of Science ID 000228050700002

  • Cavity-enhanced single photons from a quantum dot Conference on Physics and Simulation of Optoelectronic Devices XIII Vuckovic, J., Fattal, D., Englund, D., Waks, E., Santori, C., Solomon, G., Yamamoto, Y. SPIE-INT SOC OPTICAL ENGINEERING. 2005: 19–29

    View details for DOI 10.1117/12.601822

    View details for Web of Science ID 000229828500003

  • Cavity-Waveguide Interaction in Photonic Crystals Waks, E., Vuckovic, J. 2005
  • Cavity-Waveguide Interaction in Photonic Crystals Waks, E., Vuckovic, J. 2005
  • Sub-micron all optical memory and large scale integration in photonic crystals Yanik, M., F., Altug, H., Vuckovic, J., Fan, S. 2005
  • Single Photons for Quantum Information Systems Progress in Informatics Yamamoto, Y., Santori, C., Solomon, G., Vuckovic, J., Fattal, D., Waks, E. 2005: 5-37
  • Coupling of PbS Quantum Dots to Photonic Crystal Cavities at Room Temperature Fushman, I., Englund, D., Vuckovic, J. 2005
  • Quantum Dot – Photonic Crystal Single Photon Sources Englund, D., Fattal, D., Waks, E., Yamamoto, Y., Vuckovic, J. 2005
  • Polarization Control With Two-Dimensional Coupled Photonic Crystal Microcavity Arrays Altug, H., Vuckovic, J. 2005
  • Cavity Enhanced Single Photons From a Quantum Dot Vuckovic, J., Fattal, D., Englund, D., Waks, E., Santori, C., Solomon, G. 2005
  • Nanophotonic Devices for Quantum Information Science Vuckovic, J. 2005
  • Quantum Dot-Photonic Crystal Devices and Circuits for Quantum Information Processing Vuckovic, J. 2005
  • Photonic-crystal based single photon source Waks, E., Englund, D., Fattal, D., Vuckovic, J. 2005
  • Single Photon Source Based on a Quantum Dot in Photonic Crystal Vuckovic, J., Englund, D., Fattal, D., Waks, E., Zhang, B., Solomon, G. 2005
  • Generation and Manipulation of Classical and Nonclassical Light Using Photonic Crystals Vuckovic, J. 2005
  • Coupled Photonic Crystal Nanocavity Array Laser Altug, H., Vuckovic, J. 2005
  • Controlling Spontaneous Emission Rate in Solid State for Quantum Information Science Englund, D., Fattal, D., Waks, E., Vuckovic, J. 2005
  • Photonic Crystal Devices for Quantum and Nanoscale Photonics Vuckovic, J., Englund, D., Fattal, D., Altug, H., Waks, E., Yamamoto, Y. 2005
  • Single Photon Generation Using a Single Quantum Dot in a Photonic Crystal Cavity Physics of Quantum Electronics 2005, Snowbird, Utah Waks, E., Fattal, D., Englund, D., Vuckovic, J., Yamamoto, Y. 2005
  • Photonic Crystal Devices for Quantum and Nanoscale Photonics American Physical Society (APS) March Meeting, Los Angeles, CA Vuckovic, J. 2005
  • Single Photons on Demand Europhysics News Sanders, B., Vuckovic, J., Grangier, P. 2005; 36 (2): 56-58
  • Generation and manipulation of classical and nonclassical light using photonic crystals Vuckovic, J. 2005
  • Nanophotonic devices for classical and quantum information processing Vuckovic, J., Englund, D., Altug, H., Fushman, I., Waks, E. 2005
  • Generation and manipulation of classical and nonclassical light using photonic crystals Vuckovic, J. 2005
  • Two-Dimensional Porous Silicon Photonic Crystal Light Emitters Makarova, M., Vuckovic, J., Sanda, H., Nishi, Y. 2005
  • Controlling Spontaneous Emission Rate in Solid State for Quantum Information Science Englund, D., Fattal, D., Waks, E., Vuckovic, J. 2005
  • Photonic crystal devices for quantum and nanoscale photonics Vuckovic, J., Englund, D., Altug, H., Fushman, I., Waks, E. 2005
  • Controlling the Spontaneous Emission Rate of Single Quantum Dots in a 2D Photonic Crystal Phys. Rev.Lett. Englund, D., Fattal, D., Waks, E., Solomon, G., Zhang, B., Nakaoka, T., Vuckovic, J. 2005; 95
  • Coupled photonic crystal microcavity array laser 18th Annual Meeting of the IEEE-Lasers-and-Electro-Optical-Society Altug, H., Vuckovic, J. IEEE. 2005: 526–527
  • Generation of single photons and correlated photon pairs using InAs quantum dots Workshop on Quantum Optics for Quantum Informational Processing Santori, C., Fattal, D., Vuckovic, J., Solomon, G. S., Yamamoto, Y. WILEY-V C H VERLAG GMBH. 2004: 1180–88
  • Submicrometer all-optical digital memory and integration of nanoscale photonic devices without isolators JOURNAL OF LIGHTWAVE TECHNOLOGY Yanik, M. F., Altug, H., Vuckovic, J., Fan, S. H. 2004; 22 (10): 2316-2322
  • Photonic Technologies for Quantum Information Processing QUANTUM INFORMATION PROCESSING Kumar, P., Kwiat, P., Migdall, A., Nam, S. W., Vuckovic, J., Wong, F. N. 2004; 3 (1-5): 215-231
  • Single-photon generation with InAs quantum dots NEW JOURNAL OF PHYSICS Santori, C., Fattal, D., Vuckovic, J., Solomon, G. S., Yamamoto, Y. 2004; 6
  • Submicrosecond correlations in photoluminescence from InAs quantum dots PHYSICAL REVIEW B Santori, C., Fattal, D., Vuckovic, J., Solomon, G. S., Waks, E., Yamamoto, Y. 2004; 69 (20)
  • Planar photonic crystal nanolasers (I): Porous cavity lasers IEICE TRANSACTIONS ON ELECTRONICS Loncar, M., Yoshie, T., Okamoto, K., Qiu, Y. M., Vuckovic, J., Scherer, A. 2004; E87C (3): 291-299
  • Entanglement formation and violation of Bell's inequality with a semiconductor single photon source PHYSICAL REVIEW LETTERS Fattal, D., Inoue, K., Vuckovic, J., Santori, C., Solomon, G. S., Yamamoto, Y. 2004; 92 (3)

    Abstract

    We report the generation of polarization-entangled photons, using a quantum dot single photon source, linear optics, and photodetectors. Two photons created independently are observed to violate Bell's inequality. The density matrix describing the polarization state of the postselected photon pairs is reconstructed and agrees well with a simple model predicting the quality of entanglement from the known parameters of the single photon source. Our scheme provides a method to create no more than one entangled photon pair per cycle after postselection, a feature useful to enhance quantum cryptography protocols based on shared entanglement.

    View details for DOI 10.1103/PhysRevLett.92.037903

    View details for Web of Science ID 000188392800061

    View details for PubMedID 14753911

  • Two-dimensional coupled photonic crystal resonator arrays APPLIED PHYSICS LETTERS Altug, H., Vuckovic, J. 2004; 84 (2): 161-163

    View details for DOI 10.1063/1.1639505

    View details for Web of Science ID 000187916300001

  • Quantum cryptography with a single photon source Conference on Quantum Communications and Quantum Imaging Waks, E., Inoue, K., Santori, C., Fattal, D., Vuckovic, J., Solomon, G. S., Yamamoto, Y. SPIE-INT SOC OPTICAL ENGINEERING. 2004: 76–86
  • Experimental Demonstration of the Slow Group Velocity of Light in Two-Dimensional Coupled Photonic Crystal Microcavity Arrays Altug, H., Vuckovic, J. 2004
  • Two-Dimensional Coupled Photonic Crystal Resonator Arrays Altug, H., Vuckovic, J. 2004
  • Photonic crystal devices for nanophotonics and quantum information processing Vuckovic, J. 2004
  • Photonic crystal devices for quantum and nanoscale photonics Vuckovic, J. 2004
  • Photonic Crystal Structures With Large Density of Optical States Vuckovic, J., Altug, H., Waks, E., Fattal, D., Yamamoto, Y., Englund, D. 2004
  • Photonic crystal components for solid- state photonicquantum information systems Vuckovic, J., Fattal, D., Waks, E., Santori, C., Englund, D., Altug, H. 2004
  • Sub-Micron All-Optical Digital Memory and Integration of Nanoscale Photonic Devices Without Isolators J. Lightwave Technol. Yanik, M., F., Altug, H., Vuckovic, J., Fan, S. 2004; 22 (10): 2316-2322
  • Entanglement Formation and Violation of Bell’s Inequality With a Semiconductor Single Photon Source Phys. Rev. Lett. Fattal, D., Innoue, K., Vuckovic, J., Santori, C., Solomon, G., Yamamoto, Y. 2004; 92
  • Sub-Microsecond Correlations in Photoluminescence From InAs Quantum Dots Phys. Rev. B Santori, C., Fattal, D., Vuckovic, J., Solomon, G., Waks, E., Yamamoto, Y. 2004; 69
  • Indistinguishable single photons from a quantum dot 2nd International Conference on Semiconductor Quantum Dots Fattal, D., Santori, C., Vuckovic, J., Solomon, G. S., Yamamoto, Y. WILEY-BLACKWELL. 2003: 305–8
  • Enhanced single-photon emission from a quantum dot in a micropost microcavity APPLIED PHYSICS LETTERS Vuckovic, J., Fattal, D., Santori, C., Solomon, G. S. 2003; 82 (21): 3596-3598

    View details for DOI 10.1063/1.1577828

    View details for Web of Science ID 000182993700004

  • Photonic crystal microcavities for cavity quantum electrodynamics with a single quantum dot APPLIED PHYSICS LETTERS Vuckovic, J., Yamamoto, Y. 2003; 82 (15): 2374-2376

    View details for DOI 10.1063/1.1567824

    View details for Web of Science ID 000182104900002

  • An efficient source of single photons: a single quantum dot in a micropost microcavity International Conference on Superlattices Nano-Structures and Nano-Devices (ICSNN-02) Pelton, M., Vuckovic, J., Solomon, G., Santori, C., Zhang, B. Y., Plant, J., Yamamoto, Y. ELSEVIER SCIENCE BV. 2003: 564–67
  • Photonic crystal nanocavities for efficient light confinement and emission 11th Seoul International Symposium on the Physics of Semiconductors and Applications Scherer, A., Yoshie, T., Loncar, M., Vuckovic, J., Okamoto, K., Deppe, D. KOREAN PHYSICAL SOC. 2003: S768–S773
  • High-efficiency triggered photons using single cavity mode coupling of single quantum dot emission Conference on Semiconductor Optoelectronic Devices for Lightwave Communication Solomon, G. S., Pelton, M., Santori, C., Fattal, D., Vuckovic, J., Waks, E., Inoue, K., Yamamoto, Y. SPIE-INT SOC OPTICAL ENGINEERING. 2003: 1–14
  • Indistinguishable Single Photons From a Single-Quantum-Dot Microcavity Santori, Fattal, D., Vuckovic, J., Solomon, G., S., Yamamoto, Y. 2003
  • Enhanced Single Photon Emission from a Quantum Dot in a Micropost Microcavity Appl. Phys. Lett. Vuckovic, J., Fattal, D., Santori, C., Solomon, G., Yamamoto, Y. 2003; 82 (21): 3596-3598
  • Photonic Bandgap Microcavity Devices Scherer, A., Vuckovic, J., Loncar, M., Yoshie, T., Okamoto, K. 2003
  • Quantum optical devices based on photonic crystals Vuckovic, J. 2003
  • Optical and quantum optical devices based on photonic crystals Vuckovic, J. 2003
  • Photonic crystals and their applications in optoelectronics and quantum optics Vuckovic, J. 2003
  • 2-D Photonic Crystal Microcavities Scherer, A., Yoshie, T., Loncar, M., Vuckovic, J., Deppe, D., Okamoto, K. 2003
  • Cavity Enhanced Single and Entangled Photons From a Quantum Dot Vuckovic, J., Fattal, D., Santori, C., Solomon, G., Yamamoto, Y. 2003
  • Photonic Crystal Nanocavities for Efficient Light Confinement and Emission J. Korean Physical Society Scherer, A., Yoshie, T., Loncar, M., Vuckovic, J., Okamoto, K., Deppe, D. 2003; 42: 768-773
  • Indistinguishable single photons for quantum information systems 6th International Conference on Quantum Communication, Measurement and Computing (QCMC 02) Santori, C., Waks, E., Inoue, K., Fattal, D., Vuckovic, J., Solomon, G. S., Yamamoto, Y. RINTON PRESS, INC. 2003: 511–515
  • Indistinguishable single photons from a single-quantum-dot microcavity Conference on Laser Resonators and Beam Control VI Santori, C., Fattal, D., Vuckovic, J., Solomon, G. S., Yamamoto, Y. SPIE-INT SOC OPTICAL ENGINEERING. 2003: 156–166
  • Secure communication: Quantum cryptography with a photon turnstile NATURE Waks, E., Inoue, K., Santori, C., Fattal, D., Vuckovic, J., Solomon, G. S., Yamamoto, Y. 2002; 420 (6917): 762-762

    View details for DOI 10.1038/420762a

    View details for Web of Science ID 000179897300046

    View details for PubMedID 12490939

  • Efficient source of single photons: A single quantum dot in a micropost microcavity PHYSICAL REVIEW LETTERS Pelton, M., Santori, C., Vuckovic, J., Zhang, B. Y., Solomon, G. S., Plant, J., Yamamoto, Y. 2002; 89 (23)

    Abstract

    We have demonstrated efficient production of triggered single photons by coupling a single semiconductor quantum dot to a three-dimensionally confined optical mode in a micropost microcavity. The efficiency of emitting single photons into a single-mode traveling wave is approximately 38%, which is nearly 2 orders of magnitude higher than for a quantum dot in bulk semiconductor material. At the same time, the probability of having more than one photon in a given pulse is reduced by a factor of 7 as compared to light with Poissonian photon statistics.

    View details for DOI 10.1103/PhysRevLett.89.233602

    View details for Web of Science ID 000179362700020

    View details for PubMedID 12485008

  • Indistinguishable photons from a single-photon device NATURE Santori, C., Fattal, D., Vuckovic, J., Solomon, G. S., Yamamoto, Y. 2002; 419 (6907): 594-597

    Abstract

    Single-photon sources have recently been demonstrated using a variety of devices, including molecules, mesoscopic quantum wells, colour centres, trapped ions and semiconductor quantum dots. Compared with a Poisson-distributed source of the same intensity, these sources rarely emit two or more photons in the same pulse. Numerous applications for single-photon sources have been proposed in the field of quantum information, but most--including linear-optical quantum computation--also require consecutive photons to have identical wave packets. For a source based on a single quantum emitter, the emitter must therefore be excited in a rapid or deterministic way, and interact little with its surrounding environment. Here we test the indistinguishability of photons emitted by a semiconductor quantum dot in a microcavity through a Hong-Ou-Mandel-type two-photon interference experiment. We find that consecutive photons are largely indistinguishable, with a mean wave-packet overlap as large as 0.81, making this source useful in a variety of experiments in quantum optics and quantum information.

    View details for DOI 10.1038/nature01086

    View details for Web of Science ID 000178483100038

    View details for PubMedID 12374958

  • Optimization of three-dimensional micropost microcavities for cavity quantum electrodynamics PHYSICAL REVIEW A Vuckovic, J., Pelton, M., Scherer, A., Yamamoto, Y. 2002; 66 (2)
  • Optimization of the Q factor in photonic crystal microcavities IEEE JOURNAL OF QUANTUM ELECTRONICS Vuckovic, J., Loncar, M., Mabuchi, H., Scherer, A. 2002; 38 (7): 850-856
  • Experimental and theoretical confirmation of Bloch-mode light propagation in planar photonic crystal waveguides APPLIED PHYSICS LETTERS Loncar, M., Nedeljkovic, D., Pearsall, T. P., Vuckovic, J., Scherer, A., Kuchinsky, S., Allan, D. C. 2002; 80 (10): 1689-1691

    View details for DOI 10.1063/1.1452791

    View details for Web of Science ID 000174181800003

  • Photonic crystals for confining, guiding, and emitting light IEEE TRANSACTIONS ON NANOTECHNOLOGY Scherer, A., Painter, O., Vuckovic, J., Loncar, M., Yoshie, T. 2002; 1 (1): 4-11
  • Three-dimensionally confined modes in micropost microcavities: Quality factors and Purcell factors IEEE JOURNAL OF QUANTUM ELECTRONICS Pelton, M., Vuckovic, J., Solomon, G. S., Scherer, A., Yamamoto, Y. 2002; 38 (2): 170-177
  • Single photons and entangled photons from a quantum dot IEEE International Electron Devices Meeting Vuckovic, J., Santori, C., Fattal, D., Pelton, M., Solomon, G. S., Zhang, B. Y., Plant, J., Yamamoto, Y. IEEE. 2002: 87–90
  • Nanophotonics based on planar photonic crystals 15th Annual Meeting of the IEEE-Lasers-and-Electro-Optics-Society Loncar, M., Yoshie, T., Vuckovic, J., Scherer, A., Chen, H., Deppe, D., Gogna, P., Qiu, Y. M., Nedeljkovic, D., Pearsall, T. P. IEEE. 2002: 671–672
  • Optimization of Q factor in optical nanocavities based on free-standing membranes Conference on Photonic Bandgap Materials and Devices Vuckovic, J., Scherer, A. SPIE-INT SOC OPTICAL ENGINEERING. 2002: 192–199
  • Optical Characterization of High Quality Two Dimensional Photonic Crystal Cavities Yoshie, T., Vuckovic, J., Loncar, M., Scherer, A., Chen, H., Deppe, D. 2002
  • Design, Fabrication, and Characterization of Photonic Crystal Nanocavities Scherer, Yoshie, T., Loncar, M., Vuckovic, J., Painter, O., Deppe, D. 2002
  • Nanophotonics Based on Planar Photonic Crystals Loncar, M., Yoshie, T., Vuckovic, J., Scherer, A., Chen, H., Deppe, D. 2002
  • Experimental and Theoretical Confirmation of Bloch-Mode Light Propagation in Planar Photonic Crystal Waveguides Appl. Phys. Lett. Loncar, M., Nedeljkovic, D., Pearsall, T., P., Vuckovic, J., Scherer, A., Kuchinsky, S. 2002; 80 (10): 1689-1691
  • Optical and quantum optical devices based on photonic crystals Vuckovic, J. 2002
  • Optimization of Q-factor in photonic crystal microcavities IEEE Journal of Quantum Electronics Vuckovic, J., Loncar, M., Mabuchi, H., Scherer, A. 2002; 38 (7): 850-856
  • Optical and quantum optical devices based on photonic crystals Vuckovic, J. 2002
  • Optimization of the Q Factor in Optical Microcavities Based on Free Standing Membranes Vuckovic, J., Scherer, A. 2002
  • An Efficient Source of Single Photons: A Single Quantum Dot in a Micropost Microcavity Pelton, M., Santori, C., Solomon, G., S., Yamamoto, Y., Vuckovic, J., Scherer, A. 2002
  • Single Optical Mode-Spontaneous Emission Coupling of a Quantum Dot in a Three-Dimensional Microcavity Solomon, G., S., Pelton, M., Vuckovic, J., Yamamoto, Y. 2002
  • Surface Plasmon Enhanced LED Vuckovic, J., Loncar, M., Painter, O., Scherer, A. 2002
  • Three Dimensionally Confined Modes in Micropost Microcavities: Quality Factors and Purcell Factors IEEE J. Quantum Electronics Pelton, M., Vuckovic, J., Solomon, G., S., Scherer, A., Yamamoto, Y. 2002; 38 (2): 170-177
  • Optical and quantum optical devices based on photonic crystals Vuckovic, J. 2002
  • Applications of Photonic Crystals in Lasers and Light Emitting Diodes Vuckovic, J., Scherer, A., Loncar, M., Yoshie, T., Painter, O. 2002
  • Experimental and Theoretical Characterization of H2 PC Cavities Defined in Silicon on Insulator Loncar, M., Williams, J., B., Vuckovic, J., Mabuchi, H., Scherer, A. 2002
  • Localized Modes With High Quality Factor Defined by Two-Dimensional Photonic Crystal Cavities Yoshie, T., Vuckovic, J., Loncar, M., Chen, H., Deppe, D., Scherer, A. 2002
  • Optical and quantum optical devices based on photonic crystals Vuckovic, J. 2002
  • High-Q optical nanocavities in planar photonic crystals Conference on Laser Resonators and Beam Control V Vuckovic, J., Loncar, M., Yoshie, T., Scherer, A., Armen, M., Williams, J., Mabuchi, H. SPIE-INT SOC OPTICAL ENGINEERING. 2002: 190–199
  • Photonic crystal nanocavities and wavegudies 6th Joint Conference on Information Sciences Scherer, A., Vuckovic, J., Loncar, M., Yoshie, T., Painter, O. ASSOC INTELLIGENT MACHINERY. 2002: 34–35
  • Nano-scale optical and quantum optical devices based on photonic crystals 2nd IEEE Conference on Nanotechnology Vuckovic, J., Yoshie, T., Loncar, M., Mabuchi, H., Scherer, A. IEEE. 2002: 319–321
  • Design of photonic crystal microcavities for cavity QED PHYSICAL REVIEW E Vuckovic, J., Loncar, M., Mabuchi, H., Scherer, A. 2002; 65 (1)

    Abstract

    We discuss the optimization of optical microcavity designs based on two-dimensional photonic crystals for the purpose of strong coupling between the cavity field and a single neutral atom trapped within a hole. We present numerical predictions for the quality factors and mode volumes of localized defect modes as a function of geometric parameters, and discuss some experimental challenges related to the coupling of a defect cavity to gas-phase atoms.

    View details for DOI 10.1103/PhysRevE.65.016608

    View details for Web of Science ID 000173407500094

    View details for PubMedID 11800812

  • High quality two-dimensional photonic crystal slab cavities APPLIED PHYSICS LETTERS Yoshie, T., Vuckovic, J., Scherer, A., Chen, H., Deppe, D. 2001; 79 (26): 4289-4291
  • QUANTUM NETWORKS BASED ON CAVITY QED QUANTUM INFORMATION & COMPUTATION Mabuchi, H., Armen, M., Lev, B., Loncar, M., Vuckovic, J., Kimble, H. J., Preskill, J., Roukes, M., Scherer, A., van Enk, S. J. 2001; 1: 7-12
  • Methods for controlling positions of guided modes of photonic-crystal waveguides JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS Loncar, M., Vuckovic, J., Scherer, A. 2001; 18 (9): 1362-1368
  • Photonic crystal light sources and waveguides 4th Pacific Rim Conference on Lasers and Electro-Optics Scherer, A., Vuckovic, J., Loncar, M., Yoshie, T., Painter, O. IEEE. 2001: 20–21
  • Waveguiding in planar photonic crystals Conference on Silicon-based and Hybrid Optoelectronics III Loncar, M., Nedeljkovic, D., Doll, T., Vuckovic, J., Scherer, A., Pearsall, T. P. SPIE-INT SOC OPTICAL ENGINEERING. 2001: 94–99
  • Experimental characterization of dispersion properties of leaky modes in planar photonic crystal waveguide 27th European Conference on Optical Communication (ECOC 01) Loncar, M., Nedeljkovic, D., Pearsall, T. P., Vuckovic, J., Scherer, A., Kuchingky, S., Allan, D. C. IEEE. 2001: A28–A29
  • Experimental characterization of dispersion properties of the leaky modes in planar photonic crystal waveguide 14th Annual Meeting of the IEEE Lasers-and-Electro-Optics-Society Loncar, M., Nedeljkovic, D., Pearsall, T. P., Vuckovic, J., Scherer, A., Kuchinsky, S., Allan, D. C. IEEE. 2001: 273–274
  • Photonic crystals Vuckovic, J. 2001
  • Experimental Characterization of Dispersion Properties of the Leaky Modes in Planar Photonic Crystal Waveguide Loncar, M., Nedeljkovic, D., Pearsall, T., P., Vuckovic, J., Scherer, A., Kuchinsky, S. 2001
  • Quantum Networks Based on Cavity QED Quantum Information and Computation, Special Issue on "Implementation of Quantum Computation Mabuchi, H., Armen, M., Lev, B., Loncar, M., Vuckovic, J., Kimble, H., J. 2001; 1: 7-12
  • Quantum networks based on cavity QED 1st International Conference on Experimental Implementation of Quantum Computation Mabuchi, H., Armen, M., Lev, B., Loncar, M., Vuckovic, J., Kimble, H. J., Preskill, J., Roukes, M., Scherer, A., van Enk, S. J. RINTON PRESS, INC. 2001: 208–213
  • Photonic crystals Vuckovic, J. 2001
  • Experimental Characterization of Dispersion Properties of the Leaky Modes in Planar Photonic Crystal Waveguide Loncar, M., Nedeljkovic, D., Pearsall, T., P., Vuckovic, J., Scherer, A., Kuchinsky, S. 2001
  • Low Complexity Soft-Decision Decoding Algorithms for Reed-Solomon Codes IEICE Trans. Communications (Special Issue on Innovative Mobile Communication Technologies at the Dawn of the 21st Century) Vucetic, B., Ponampalam, V., Vuckovic, J. 2001; E84-B: 392-399
  • High Quality Two Dimensional Photonic Crystal Slab Cavities Appl. Phys. Lett. Yoshie, T., Vuckovic, J., Scherer, A., Chen, H., Deppe, D. 2001; 79 (26): 4289-4291
  • Design of photonic crystal optical microcavities Conference on Physics and Simulation of Optoelectronic Devices IX Vuckovic, J., Loncar, M., Scherer, A. SPIE-INT SOC OPTICAL ENGINEERING. 2001: 415–419
  • Waveguiding in Planar Photonic Crystals Loncar, M., Nedeljkovic, D., Doll, T., Vuckovic, J., Scherer, A., Pearsall, T., P. 2001
  • Quality Factors of Localized Defect Modes in Planar Photonic Crystal Structures Vuckovic, J., Loncar, M., Mabuchi, H., Scherer, A. 2001
  • Methods for Controlling Positions of Guided Modes in Photonic Crystal Waveguides J. Optical Society of America B Loncar, M., Vuckovic, J., Scherer, A. 2001; 18 (9): 1362-1368
  • Photonic crystals and their applications to efficient light emitters 14th Annual Meeting of the IEEE Lasers-and-Electro-Optics-Society Scherer, A., Vuckovic, J., Loncar, M., Yoshie, T., Painter, O. IEEE. 2001: 736–737
  • Photonic crystal nanocavities and waveguides International Semiconductor Device Research Symposium (ISDRS 01) Scherer, A., Vuckovic, J., Loncar, M., Yoshie, T., Painter, O. IEEE. 2001: 511–513
  • Surface plasmon enhanced light-emitting diode IEEE JOURNAL OF QUANTUM ELECTRONICS Vuckovic, J., Loncar, M., Scherer, A. 2000; 36 (10): 1131-1144
  • Design and fabrication of silicon photonic crystal optical waveguides JOURNAL OF LIGHTWAVE TECHNOLOGY Loncar, M., Doll, T., Vuckovic, J., Scherer, A. 2000; 18 (10): 1402-1411
  • Waveguiding in planar photonic crystals APPLIED PHYSICS LETTERS Loncar, M., Nedeljkovic, D., Doll, T., Vuckovic, J., Scherer, A., Pearsall, T. P. 2000; 77 (13): 1937-1939
  • Low-energy electron beam focusing in self-organized porous alumina vacuum windows APPLIED PHYSICS LETTERS Doll, T., Vuckovic, J., Hochberg, M., Scherer, A. 2000; 76 (24): 3635-3637
  • Photonic crystal microcavities for strong coupling between an atom and the cavity field 13th Annual Meeting of the IEEE Lasers-and-Electro-Optics-Society Vuckovic, J., Loncar, M., Mabuchi, H., Scherer, A. IEEE. 2000: 840–841
  • FDTD calculation of the spontaneous emission coupling factor in optical microcavities Conference on Micro- and Nano-photonic Materials and Devices Vuckovic, J., Painter, O., Xu, Y., Yariv, A., Scherer, A. SPIE-INT SOC OPTICAL ENGINEERING. 2000: 2–11
  • Surface Plasmon Enhanced LED Vuckovic, J., Loncar, M., Painter, O., Scherer, A. 2000
  • Modal Analysis of Waveguides Based on Triangular Photonic Crystal Lattice Loncar, M., Vuckovic, J., Scherer, A. 2000
  • Waveguiding in Planar Photonic Crystals Appl. Phys. Lett. Loncar, M., Nedeljkovic, D., Doll, T., Vuckovic, J., Scherer, A., Pearsall, T., P. 2000; 77 (13): 1937-1939
  • Finite-Difference Time-Domain Calculation of the Spontaneous Emission Coupling Factor in Optical Microcavities Vuckovic, J., Painter, O., Xu, Y., Yariv, A., Scherer, A. 2000
  • Low-Energy Electron Beam Focusing in Self-Organized Porous Alumina Vacuum Windows Appl. Phys. Lett. Doll, T., Vuckovic, J., Hochberg, M., Scherer, A. 2000; 76 (24): 3635-3637
  • Surface Plasmon Enhanced Light Emitting Diode IEEE J. Quantum Electronics Vuckovic, J., Loncar, M., Scherer, A. 2000; 36 (10): 1131-1144
  • Modal analysis of waveguides based on a triangular photonic crystal lattice 13th Annual Meeting of the IEEE Lasers-and-Electro-Optics-Society Loncar, M., Vuckovic, J., Scherer, A. IEEE. 2000: 844–845
  • Two Dimensional Photonic Crystal Nanocavities for Light Localization Painter, O., Vuckovic, J., Scherer, A. 2000
  • Photonic crystal lasers and waveguides Conference on Physics and Simulation of Optoelectronic Devices VIII Scherer, A., Loncar, M., Painter, O., Husain, A., Vuckovic, J., Doll, T. SPIE-INT SOC OPTICAL ENGINEERING. 2000: 2–8
  • Finite-difference time-domain calculation of the spontaneous emission coupling factor in optical microcavities IEEE JOURNAL OF QUANTUM ELECTRONICS Vuckovic, J., Painter, O., Xu, Y., Yariv, A., Scherer, A. 1999; 35 (8): 1168-1175
  • Finite-difference time-domain calculation of spontaneous emission lifetime in a microcavity JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS Xu, Y., Vuckovic, J. S., Lee, R. K., Painter, O. J., Scherer, A., Yariv, A. 1999; 16 (3): 465-474
  • Defect modes of a two-dimensional photonic crystal in an optically thin dielectric slab JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS Painter, O., Vuckovic, J., Scherer, A. 1999; 16 (2): 275-285
  • Finite-Difference Time-Domain Calculation of the Spontaneous Emission Coupling Factor in Optical Microcavities IEEE J. Quantum Electron. Vuckovic, J., Painter, O., Xu, Y., Yariv, A., Scherer, A. 1999; 35 (8): 1168-1174
  • Photonic Crystal Nanocavity Lasers Scherer, A., Painter, O., Husain, A., Vuckovic, J., Dapkus, D., O’Brien, J. 1999
  • Finite-Difference Time Domain Calculation of Spontaneous Emission Lifetime in a Microcavity J. Optical Society of America B Xu, Y., Vuckovic, J., S., Lee, R., K., Painter, O., J., Scherer, A., Yariv, A. 1999; 16 (3): 465-474
  • Maximum-Likelihood Decoding of Reed Solomon Codes Vuckovic, J., S., Vucetic, B., S. 1997