Michael R. Geller, PhD
Affiliations: | Physics | University of Georgia, Athens, Athens, GA, United States |
Area:
Quantum theoryWebsite:
https://www.physast.uga.edu/people/michael_gellerGoogle:
"Michael Geller"Mean distance: 11.67 | S | N | B | C | P |
Parents
Sign in to add mentor| Walter Kohn | grad student | 1994 | UC Santa Barbara |
| Daniel Loss | post-doc | University of Basel |
Children
Sign in to add trainee| Joydip Ghosh | grad student | University of Georgia | |
| Emily J. Pritchett | grad student | University of Georgia | |
| Ho-Soon Yang | grad student | 2000 | University of Georgia |
BETA: Related publications
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Publications
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| Geller MR. (2023) Proposal for a Lorenz qubit. Scientific Reports. 13: 14106 |
| Geller MR, Arrasmith A, Holmes Z, et al. (2022) Quantum simulation of operator spreading in the chaotic Ising model. Physical Review. E. 105: 035302 |
| Geller MR. (2020) Rigorous measurement error correction Arxiv: Quantum Physics. 5 |
| Geller MR. (2018) Sampling and Scrambling on a Chain of Superconducting Qubits Physical Review Applied. 10: 24052 |
| Sornborger AT, Stancil P, Geller MR. (2018) Toward prethreshold gate-based quantum simulation of chemical dynamics: using potential energy surfaces to simulate few-channel molecular collisions Quantum Information Processing. 17 |
| Goldstein S, Korenblit S, Bendor Y, et al. (2017) Decoherence and interferometric sensitivity of boson sampling in superconducting resonator networks Physical Review B. 95 |
| Katabarwa A, Geller MR. (2015) Logical error rate in the Pauli twirling approximation. Scientific Reports. 5: 14670 |
| Katabarwa A, Geller MR. (2015) Three-step implementation of any n×n unitary with a complete graph of n qubits Physical Review a - Atomic, Molecular, and Optical Physics. 92 |
| Geller MR, Martinis JM, Sornborger AT, et al. (2015) Universal quantum simulation with prethreshold superconducting qubits: Single-excitation subspace method Physical Review a - Atomic, Molecular, and Optical Physics. 91 |
| Chen Y, Neill C, Roushan P, et al. (2014) Qubit Architecture with High Coherence and Fast Tunable Coupling. Physical Review Letters. 113: 220502 |