Alp Sipahigil
Affiliations: | 2021- | University of California, Berkeley, Berkeley, CA, United States |
Area:
Quantum devicesWebsite:
quantumdevices.berkeley.eduGoogle:
"Alp Sipahigil"Mean distance: (not calculated yet)
BETA: Related publications
See more...
Publications
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
Xiong Y, Bourgois C, Sheremetyeva N, et al. (2023) High-throughput identification of spin-photon interfaces in silicon. Science Advances. 9: eadh8617 |
Mirhosseini M, Sipahigil A, Kalaee M, et al. (2020) Superconducting qubit to optical photon transduction. Nature. 588: 599-603 |
MacCabe GS, Ren H, Luo J, et al. (2020) Nano-acoustic resonator with ultralong phonon lifetime. Science (New York, N.Y.). 370: 840-843 |
Mirhosseini M, Kim E, Zhang X, et al. (2019) Cavity quantum electrodynamics with atom-like mirrors. Nature |
Covey JP, Sipahigil A, Szoke S, et al. (2019) Telecom-Band Quantum Optics with Ytterbium Atoms and Silicon Nanophotonics Physical Review Applied. 11 |
Covey JP, Sipahigil A, Saffman M. (2019) Microwave-to-optical conversion via four-wave mixing in a cold ytterbium ensemble Physical Review A. 100 |
Evans RE, Bhaskar MK, Sukachev DD, et al. (2018) Photon-mediated interactions between quantum emitters in a diamond nanocavity. Science (New York, N.Y.) |
Mirhosseini M, Kim E, Ferreira VS, et al. (2018) Superconducting metamaterials for waveguide quantum electrodynamics. Nature Communications. 9: 3706 |
Lemonde MA, Meesala S, Sipahigil A, et al. (2018) Phonon Networks with Silicon-Vacancy Centers in Diamond Waveguides. Physical Review Letters. 120: 213603 |
Sohn YI, Meesala S, Pingault B, et al. (2018) Controlling the coherence of a diamond spin qubit through its strain environment. Nature Communications. 9: 2012 |