Stanford University
Showing 501-600 of 2,349 Results
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James Harris
James and Elenor Chesebrough Professor in the School of Engineering, Emeritus
BioHarris utilizes molecular beam epitaxy (MBE) of III-V compound semiconductor materials to investigate new materials for electronic and optoelectronic devices. He utilizes heterojunctions, superlattices, quantum wells, and three-dimensional self-assembled quantum dots to create metastable engineered materials with novel or improved properties for electronic and optoelectronic devices. His early work in the 1970's demonstrating a practical heterojunction bipolar transistor led to their application in every mobile phone today and record setting solar cell efficiency. He has recently focused on three areas: 1) integration of photonic devices and micro optics for creation of new minimally invasive bio and medical systems for micro-array and neural imaging and 2) application of nanostructures semiconductors for the acceleration of electrons using light, a dielectric Laser Accelerator (DLA), and 3) novel materials and nano structuring for high efficiency solar cells and photo electrochemical water splitting for the generation of hydrogen.
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Jerry Harris
The Cecil H. and Ida M. Green Professor in Geophysics, Emeritus
Current Research and Scholarly InterestsBiographical Information
Jerry M. Harris is the Cecil and Ida Green Professor of Geophysics and Associate Dean for the Office of Multicultural Affairs. He joined Stanford in 1988 following 11 years in private industry. He served five years as Geophysics department chair, was the Founding Director of the Stanford Center for Computational Earth and Environmental Science (CEES), and co-launched Stanford's Global Climate and Energy Project (GCEP). Graduates from Jerry's research group, the Stanford Wave Physics Lab, work in private industry, government labs, and universities.
Research
My research interests address the physics and dynamics of seismic and electromagnetic waves in complex media. My approach to these problems includes theory, numerical simulation, laboratory methods, and the analysis of field data. My group, collectively known as the Stanford Wave Physics Laboratory, specializes on high frequency borehole methods and low frequency labratory methods. We apply this research to the characterization and monitoring of petroleum and CO2 storage reservoirs.
Teaching
I teach courses on waves phenomena for borehole geophysics and tomography. I recently introduced and co-taught a new course on computational geosciences.
Professional Activities
I was the First Vice President of the Society of Exploration Geophysicists in 2003-04, and have served as the Distinguished Lecturer for the SPE, SEG, and AAPG. -
Liz Harris
Ph.D. Student in Education, admitted Autumn 2023
BioElizabeth Finlayson Harris is an academic and educator specializing in science education, with a strong focus on secondary education and the sociopolitical context of schooling. She is currently pursuing her PhD in Curriculum and Teacher Education at Stanford University, with a minor in Anthropology. Elizabeth's research interests include humanizing pedagogy and classroom climate and culture.
With a Master's degree in Teacher Education and a Bachelor's degree in Physics Education from Brigham Young University, Elizabeth has a rich teaching background. She has taught physics and astronomy at various high schools and directed pre-college engineering programs aimed at underrepresented students. Her professional experience extends to instructional design, where she has developed online courses for BYU Online High School.
Elizabeth's work is characterized by her dedication to educational equity and improving teaching and learning environments. Outside of her professional life, she is an avid Liverpool fan and enjoys mountain biking and snowboarding. -
Odette Harris, MD, MPH
Paralyzed Veterans of America Professor of Spinal Cord Injury Medicine
Current Research and Scholarly InterestsTraumatic brain injury with a focus on epidemiology and outcomes.
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Stephen E. Harris
Kenneth and Barbara Oshman Professor in the School of Engineering and Professor of Applied Physics, Emeritus
BioHarris' interests include lasers, quantum electronics, atomic physics, and nonlinear optics.
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Natasha Harrison
Biostatistician 2, Anesthesia
BioBiostatistician at SOM.
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Stephen Harrison
Senior Lecturer in Music
BioStudied with George Neikrug, Andor Toth, Jr., Margaret Rowell, Eugene Lehner.
Artistic Director, Ives Collective (2015-)
Founding member, Ives String Quartet. Cellist (1998-2015)
Founding member, Stanford String Quartet (1983-1997).
Solo cellist, San Francisco Contemporary Music Players.
Former principal, the Chamber Symphony of San Francisco, New England Chamber Orchestra, The Opera Company of Boston.
Principal cellist, Mendocino Music Festival; Faculty coach, Emerging Artists Program, Mendocino Music Festival
Faculty member, SoCal Chamber Music Workshop
Cellist, Telluride Chamber Music Festival
Former faculty/cellist at the Rocky Ridge Music Center, Centrum/Port Townsend (WA),
Recordings for CRI, Laurel Records, New Albion, AIX Entertainment, Delos, Centaur, and Music and Arts Recordings of America. -
T. Kyle Harrison, MD
Clinical Professor (Affiliated) [Vapahcs], Anesthesia
Staff, Anesthesia - Adult Pain (Designated)BioDr. T. Kyle Harrison is a Clinical Professor (Affiliated- PAVA) of Anesthesiology, Perioperative and Pain Medicine at Stanford University and a staff physician at the VA Palo Alto. He is board certified in both Anesthesiology and Addiction Medicine. He earned his MD and did his residency training in anesthesiology at Stanford University. He completed a medical education and simulation fellowship at Stanford and then obtained additional training in addiction medicine at both Stanford and the VA Palo Alto. He is interested in the intersection of pain and addiction. He co directs the Transitional Pain Clinic at the VA Palo Alto. He attends on both the acute pain service as well as the addiction medicine clinic at the VA Palo Alto. His academic interest include addiction, pain, peri operative management of buprenorphine, transitional pain, conversion of acute to chronic pain, and medical simulation. His email is kyle.harrison@stanford.edu and his twitter handle is @KyleHarrisonMD.
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Bard Harstad
David S. Lobel Professor in Business and Sustainability, Professor at the Doerr School of Sustainability and Professor, by courtesy, of Economics
BioWith a PhD from Stockholm University, Harstad taught at Kellogg School of Management, Northwestern University, 2004-2012, and then at the University of Oslo 2012-2023, before joining the GSB in 2023. His fields include political economics, environmental economics, and applied theory. Specific research projects include the design of international agreements, trade agreements and climate agreements, supply-side environmental policies, and policies that motivate environmental conservation and reducing deforestation.
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Erin J. Hart
PM&R Residency Program Coordinator, Orthopaedic Surgery
Current Role at StanfordProgram Coordinator for the Physical Medicine and Rehabilitation Residency Program and Clerkship, Fellowship Coordinator for the PM&R Spine Research Fellowship and PM&R Spine Fellowship.
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Geoffrey Hart-Cooper
Clinical Associate Professor, Pediatrics - General Pediatrics
Current Research and Scholarly InterestsDr. Hart-Cooper's research focuses on youth provider barriers and education surrounding pre-exposure prophylaxis for HIV (PrEP). He founded the Virtual PrEP Program for Adolescents and Young Adults at Stanford to improve access to PrEP care for youth within California. In his current role, he advises health departments and health systems in creating youth-focused telehealth tools to improve youth access to PrEP.
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Seamus Harte
Lecturer
BioSeamus Yu Harte is the the Head of Learning Experience Design for the Electives Program at the Hasso Plattner Institute of Design (aka the d.school) and the founder of Only People, a learning experience design studio based inspired by the art & activism of John Lennon & Yoko Ono. From Yoko Ono to David Kelley, Seamus has had the opportunity to teach and learn with world-class creatives. He holds a BS in Sound Design from SAE and a MFA in Documentary Film + Video from Stanford University where he also received Fellowships from The Stanford Institute for Creativity and the Arts (SiCA) and The San Francisco Foundation.
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Phillip M. Harter, M.D.
Associate Professor (Teaching) of Emergency Medicine, Emeritus
Current Research and Scholarly InterestsMedical Education, particularly the role of simulation (part-task trainers, human patient simulators and virtual reality) in the education of medical students and residents. Also, the use of the internet for distance learning in health care professions.
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Christy Hartman
Adm Assoc 3, School of Medicine - Biomedical Ethics
Current Role at StanfordProgram Manager, Medical Humanities and the Arts Program
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Gary E Hartman, MD, MBA
Clinical Professor, Surgery - Pediatric Surgery
Current Research and Scholarly InterestsMinimal Access and Robotic Surgery
Neonatal Surgery
Childhood Oncology -
Mary Elizabeth Hartnett, MD
Michael F. Marmor, M.D. Professor of Retinal Science and Disease and Professor of Ophthalmology
BioMary Elizabeth Hartnett, MD, is the Michael F. Marmor, M.D. Professor in Retinal Science and Diseases and is a Professor of Ophthalmology at Stanford University. Dr. Hartnett is the director of Pediatric Retina at Stanford University and principal investigator of a retinal angiogenesis laboratory, in which she studies causes and treatments for diseases including retinopathy of prematurity and age-related macular degeneration. She created the first-ever academic textbook on the subject, Pediatric Retina, in its third edition, which has proven to be an invaluable resource for residents and ophthalmologists internationally.
Dr. Hartnett’s NIH-funded laboratory of vascular biology and angiogenesis has studied mechanisms causing pathology in age-related macular degeneration (AMD) and retinopathy of prematurity (ROP). Her work in AMD has been to understand the mechanisms involved in activation and invasion of choroidal endothelial cells anterior to the RPE in order to maintain vasculature that is physiologic and not damaging beneath the RPE. Her lab has elucidated environmental stressors that lead to scarring in the macula for which no vision improvement is currently possible. The goal is to find methods to prevent the scarring.
Her lab’s work in ROP provided the proof of concept to regulate an angiogenic signaling pathway by inhibiting VEGF to facilitate intraretinal neovascularization as well as to inhibit abnormal extraretinal neovascularization and reduce retinal destruction used in previous treatments. Her work has been translated through clinical trials to lead to new treatments for severe ROP and has represented a paradigm shift in the understanding and treatment of severe ROP.
Dr. Hartnett has received numerous awards, including the Weisenfeld Award, the highest award for clinician-scientists given by the Association for Research in Vision and Ophthalmology (ARVO), in 2018, and is an ARVO Gold Fellow. She received the 2019 Paul Kayser/Retina Research Foundation Global Award, the Macula Society’s 2016 Paul Henkind Award and its 2019 Arnall Patz Medal, the Paul Kayser/RRF Global Award from the PanAmerica Society, and the 2021 Suzanne Veronneau-Troutman Award, the most prestigious award from Women in Ophthalmology. In 2022, she was one of six at the University of Utah to receive a distinguished research award, for Pediatrics and Ophthalmology.
Dr. Hartnett's prolific publication record includes 227 articles in peer-reviewed journals and over 40 book chapters. She has delivered numerous national and international invited lectures. Her long list of professional committee work includes serving as chair of the Publications Committee of ARVO, as a mentor for the ARVO Leadership Development Program, and in leadership positions internationally as chair of the research advisory committees for The Macula Society and the Jack McGovern Coats Disease Foundation as well as Chair of the Credentialing Committee for The Retina Society. She reviews manuscripts for more than 20 eye and science journals and serves on the editorial boards of PlosOne, Molecular Vision, and the American Journal of Ophthalmology. Dr. Hartnett is a Fellow of the American College of Surgeons (FACS) and a Silver and Gold Fellow of the Association for Research in Vision and Ophthalmology (FARVO). -
Sean Hartnoll
Principal Investigator, Stanford Institute for Materials and Energy Sciences
BioI am a theorist working on problems in gravitational, high energy and condensed matter physics. In recent years the holographic correspondence, the physics of quantum entanglement and quantum field theory more generally have led to strong connections between central concerns in these different fields.
For example, I am interested in understanding the emergence of spacetime from large N matrix quantum mechanics models. These can be thought of as the simplest models of holographic duality, and will likely hold the key to understanding the emergence of local physics as well as black holes. The most basic object in these theories is the ground state wavefunction. Understanding this wavefunction is a many-body problem and I am interested in using modern ideas from condensed matter theory -- such as topological order -- to characterize it.
Another example has to do with dissipation. How quickly can a quantum mechanical system thermalize itself? From this perspective, there are remarkable similarities between strongly quantum mechanical systems such as the quark-gluon plasma and high temperature superconductors and the dynamics of black holes in classical gravity. This may suggest that a fundamental limitation imposed by quantum statistical mechanics is at work in these systems. I have pursued this possibility from many angles, including variational principles for entropy production, the Lieb-Robinson bound on velocities in quantum systems and bounds on the magnitude of quantum fluctuations near thermal equilibrium.
In parallel to a ''bird's eye'' approach to quantum statistical mechanics, I am also increasingly interested in specific scattering mechanisms in unconventional materials that may give a relatively simple explanation of transport behavior that has otherwise been considered anomalous --- using this approach my collaborators and I have 'demystified' aspects of transport in quantum critical ruthenate materials. I am currently interested, for example, in the role of phonons in strongly correlated electronic systems.
I have recently worked on black hole interiors in classical gravity. Black hole interiors are extremely rich mathematically, but their physical interpretation -- for example in a holographic context -- remains obscure. To start to address this question I have shown how important dynamics of the interior, such as the instability of the singularity and of Cauchy horizons, can be triggered in a relatively simple holographic setting.
Lists of my publications and of recorded talks and lectures can be found following the links on the right.
