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Dominic Gribben
Dominic Gribben
Multiverse Computing
在 multiversecomputing.com 的电子邮件经过验证
标题
引用次数
引用次数
年份
Exact dynamics of nonadditive environments in non-Markovian open quantum systems
D Gribben, DM Rouse, J Iles-Smith, A Strathearn, H Maguire, P Kirton, ...
PRX Quantum 3 (1), 010321, 2022
662022
Using the environment to understand non-Markovian open quantum systems
D Gribben, A Strathearn, GE Fux, P Kirton, BW Lovett
Quantum 6, 847, 2022
462022
Exact quantum dynamics in structured environments
D Gribben, A Strathearn, J Iles-Smith, D Kilda, A Nazir, BW Lovett, ...
Physical Review Research 2 (1), 013265, 2020
372020
Unveiling non-Markovian spacetime signaling in open quantum systems with long-range tensor network dynamics
T Lacroix, A Dunnett, D Gribben, BW Lovett, A Chin
Physical Review A 104 (5), 052204, 2021
182021
Quantum enhancements and entropic constraints to Boundary Time Crystals as sensors of AC fields
D Gribben, A Sanpera, R Fazio, J Marino, F Iemini
arXiv preprint arXiv:2406.06273, 2024
72024
OQuPy: A Python package to efficiently simulate non-Markovian open quantum systems with process tensors
GE Fux, P Fowler-Wright, J Beckles, EP Butler, PR Eastham, D Gribben, ...
The Journal of Chemical Physics 161 (12), 2024
62024
Quench dynamics of a dissipative Rydberg gas in the classical and quantum regimes
D Gribben, I Lesanovsky, R Gutiérrez
Physical Review A 97 (1), 011603, 2018
52018
Markovian to non-Markovian phase transition in the operator dynamics of a mobile impurity
D Gribben, J Marino, SP Kelly
arXiv preprint arXiv:2401.17066, 2024
22024
Simulating and understanding quantum processes using tensor networks
D Gribben
The University of St Andrews, 2022
2022
Quench dynamics of a dissipative Rydberg gas in the classical and quantum regimes
R Gutiérrez Díez, D Gribben, I Lesanovsky
American Physical Society, 2018
2018
Boundary Time Crystals as AC sensors: enhancements and constraints
D Gribben, A Sanpera, R Fazio, J Marino, F Iemini
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