Mohammad Mirhosseini
Assistant Professor of Electrical Engineering and Applied Physics
B.S., University of Tehran, 2010; M.S., University of Rochester, 2013; Ph.D., 2015. Visiting Associate, Caltech, 2020; Assistant Professor, 2020-.
Overview
Mirhosseini's research is on the experimental aspects of quantum engineering. His current research focuses on developing and combining superconducting circuits with chip-based phononic and photonic devices at milikelvin temperatures. Long term research goal is to realize interfaces between circuit quantum electrodynamics and quantum optics for applications in quantum computing, communication, and sensing.
Related News
Read more newsPublications
- Fang, Kejie;Sun, Xiankai et al. (2024) Optomechanical Photonics: feature issue introductionOptical Materials Express
- Shah, Parth S.;Yang, Frank et al. (2024) Stabilizing Remote Entanglement via Waveguide DissipationPRX Quantum
- Bozkurt, Alkım;Zhao, Han et al. (2023) A quantum electromechanical interface for long-lived phononsNature Physics
- Zhao, Han;Bozkurt, Alkim et al. (2023) Electro-optic transduction in silicon via gigahertz-frequency nanomechanicsOptica
- Joshi, Chaitali;Yang, Frank et al. (2023) Resonance Fluorescence of a Chiral Artificial AtomPhysical Review
- Zhao, Han;Bozkurt, Alkım et al. (2022) Electro-optic transduction in silicon via GHz-frequency nanomechanics
- Joshi, Chaitali;Chen, Wenyuan et al. (2022) Strong kinetic-inductance Kerr nonlinearity with titanium nitride nanowires
- Bozkurt, Alkım;Zhao, Han et al. (2022) A quantum electromechanical interface for long-lived phonons
- Bozkurt, Alkım;Joshi, Chaitali et al. (2022) Deep sub-wavelength localization of light and sound in dielectric resonatorsOptics Express
- Ferreira, Vinicius S.;Banker, Jash et al. (2021) Collapse and Revival of an Artificial Atom Coupled to a Structured Photonic ReservoirPhysical Review X
Related Courses
2023-24
EE/APh 120 – Physical Optics
EE/APh 158 – Quantum Electrical Circuits
2022-23
EE/APh 158 – Quantum Electrical Circuits
2021-22
EE/APh 120 – Physical Optics
EE/APh 158 – Quantum Electrical Circuits
2020-21
EE/APh 120 – Physical Optics
EE/APh 158 – Quantum Electrical Circuits