Daniel T. Sank, Ph.D.
Affiliations: | 2014 | Physics | University of California, Santa Barbara, Santa Barbara, CA, United States |
Area:
Condensed Matter Experimental PhysicsGoogle:
"Daniel Sank"Mean distance: 14.65 | S | N | B | C | P |
Parents
Sign in to add mentor| John M. Martinis | grad student | 2014 | UC Santa Barbara | |
| (Fast, Accurate State Measurement in Superconducting Qubits.) | ||||
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Publications
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| Mi X, Ippoliti M, Quintana C, et al. (2021) Time-Crystalline Eigenstate Order on a Quantum Processor. Nature |
| Mi X, Roushan P, Quintana C, et al. (2021) Information scrambling in quantum circuits. Science (New York, N.Y.). eabg5029 |
| Bardin JC, Sank D, Naaman O, et al. (2020) Quantum Computing: An Introduction for Microwave Engineers Ieee Microwave Magazine. 21: 24-44 |
| Barends R, Quintana CM, Petukhov AG, et al. (2019) Diabatic Gates for Frequency-Tunable Superconducting Qubits. Physical Review Letters. 123: 210501 |
| Arute F, Arya K, Babbush R, et al. (2019) Quantum supremacy using a programmable superconducting processor. Nature. 574: 505-510 |
| Bardin JC, White T, Giustina M, et al. (2019) Design and Characterization of a 28-nm Bulk-CMOS Cryogenic Quantum Controller Dissipating Less Than 2 mW at 3 K Ieee Journal of Solid-State Circuits. 54: 3043-3060 |
| Klimov PV, Kelly J, Chen Z, et al. (2018) Fluctuations of Energy-Relaxation Times in Superconducting Qubits. Physical Review Letters. 121: 090502 |
| Neill C, Roushan P, Kechedzhi K, et al. (2018) A blueprint for demonstrating quantum supremacy with superconducting qubits. Science (New York, N.Y.). 360: 195-199 |
| Roushan P, Neill C, Tangpanitanon J, et al. (2018) Spectroscopic signatures of localization with interacting photons in superconducting qubits. Science (New York, N.Y.). 358: 1175-1179 |
| Foxen B, Mutus JY, Lucero E, et al. (2018) High speed flux sampling for tunable superconducting qubits with an embedded cryogenic transducer Superconductor Science and Technology. 32: 015012 |