Alp Sipahigil
Affiliations: | 2021- | University of California, Berkeley, Berkeley, CA, United States |
Area:
Quantum devicesWebsite:
quantumdevices.berkeley.eduGoogle:
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Publications
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| 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 |