Bio

Exploring the experimental quantum information and fundamental physics of strongly-correlated many-body systems and creating new ways to control their dynamics using ultracold atoms.

Education & Certifications

  • BSE, Princeton University, Electrical and Computer Engineering (2024)

Contact

  • Academic
    areeq@stanford.edu
    University - Student Department: Applied Physics Position: Graduate

Additional Info

  • Mail Code: 4090

Links

Current Research and Scholarly Interests

Interested in the fundamental physics of strongly-correlated quantum many-body systems and creating new ways to control their dynamics; in particular, how nature invokes entanglement in the physics of many-body systems by experimentally investigating the intricate structures of correlations that nature favors and their effects on coherent quantum dynamics towards understanding the information theoretic essence of entanglement as a computational resource. Interested in building new ways to control the coherent quantum dynamics of strongly-correlated many-body systems towards the end of quantum information processing. Intending to use the experimental platform of ultracold atoms towards this end.

Work Experience

  • Quantum Engineer Summer Intern (Systems), IBM Quantum (May 23, 2022 - August 12, 2022)

    Worked with the Quantum Prototypes team developing multi-qubit encodings for a quantum combinatorial optimization algorithm, concurrent estimation of ground state energies across multiple quantum processors, and nonlinear extrapolation strategies for a quantum error mitigation technique.

    Location

    1101 Kitchawan Rd, Yorktown Heights, NY 10598