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Bryan Gard
Bryan Gard
Georgia Tech Research Institute
Bestätigte E-Mail-Adresse bei gtri.gatech.edu
Titel
Zitiert von
Zitiert von
Jahr
Efficient symmetry-preserving state preparation circuits for the variational quantum eigensolver algorithm
BT Gard, L Zhu, GS Barron, NJ Mayhall, SE Economou, E Barnes
npj Quantum Information 6 (1), 10, 2020
2122020
Phase sensitivity at the Heisenberg limit in an SU (1, 1) interferometer via parity detection
D Li, BT Gard, Y Gao, CH Yuan, W Zhang, H Lee, JP Dowling
Physical Review A 94 (6), 063840, 2016
982016
An introduction to boson-sampling
BT Gard, KR Motes, JP Olson, PP Rohde, JP Dowling
From atomic to mesoscale: The role of quantum coherence in systems of …, 2015
852015
Microwave-to-optical frequency conversion using a cesium atom coupled to a superconducting resonator
BT Gard, K Jacobs, R McDermott, M Saffman
Physical Review A 96 (1), 013833, 2017
832017
Gate-free state preparation for fast variational quantum eigensolver simulations
OR Meitei, BT Gard, GS Barron, DP Pappas, SE Economou, E Barnes, ...
npj Quantum Information 7 (1), 155, 2021
702021
Nearly optimal measurement schemes in a noisy Mach-Zehnder interferometer with coherent and squeezed vacuum
BT Gard, C You, DK Mishra, R Singh, H Lee, TR Corbitt, JP Dowling
EPJ Quantum Technology 4 (1), 1-13, 2017
522017
Quantum-enhanced interferometry with weak thermal light
SM Hashemi Rafsanjani, M Mirhosseini, OS Magaña-Loaiza, BT Gard, ...
Optica 4 (4), 487-491, 2017
492017
Benchmarking quantum chemistry computations with variational, imaginary time evolution, and Krylov space solver algorithms
K Yeter‐Aydeniz, BT Gard, J Jakowski, S Majumder, GS Barron, G Siopsis, ...
Advanced Quantum Technologies 4 (7), 2100012, 2021
412021
Efficient symmetry-preserving state preparation circuits for the variational quantum eigensolver algorithm, npj Quantum Inf
BT Gard, L Zhu, GS Barron, NJ Mayhall, SE Economou, E Barnes
DOI 6 (10), 023072-12, 2020
402020
Preserving symmetries for variational quantum eigensolvers in the presence of noise
GS Barron, BT Gard, OJ Altman, NJ Mayhall, E Barnes, SE Economou
Physical Review Applied 16 (3), 034003, 2021
372021
Warm-Started QAOA with Custom Mixers Provably Converges and Computationally Beats Goemans-Williamson's Max-Cut at Low Circuit Depths
R Tate, J Moondra, B Gard, G Mohler, S Gupta
Quantum 7, 1121, 2023
312023
Inefficiency of classically simulating linear optical quantum computing with Fock-state inputs
BT Gard, JP Olson, RM Cross, MB Kim, H Lee, JP Dowling
Physical Review A 89 (2), 022328, 2014
302014
Quantum random walks with multiphoton interference and high-order correlation functions
BT Gard, RM Cross, PM Anisimov, H Lee, JP Dowling
JOSA B 30 (6), 1538-1545, 2013
212013
Efficient symmetry-preserving state preparation circuits for the variational quantum eigensolver algorithm. npj Quantum Inf 6 (1): 1–9
BT Gard, L Zhu, GS Barron, N Mayhall, S Economou, E Barnes
arXiv preprint arXiv:1904.10910, 2020
142020
Generating target graph couplings for the quantum approximate optimization algorithm from native quantum hardware couplings
J Rajakumar, J Moondra, B Gard, S Gupta, CD Herold
Physical Review A 106 (2), 022606, 2022
92022
Fully quantum algorithm for lattice Boltzmann methods with application to partial differential equations
S Kocherla, Z Song, FE Chrit, B Gard, EF Dumitrescu, A Alexeev, ...
arXiv preprint arXiv:2305.07148, 2023
62023
Advances in quantum metrology: Continuous variables in phase space
BT Gard
Louisiana State University and Agricultural & Mechanical College, 2016
62016
Modeling noise in global Mølmer-Sørensen interactions applied to quantum approximate optimization
PC Lotshaw, KD Battles, B Gard, G Buchs, TS Humble, CD Herold
Physical Review A 107 (6), 062406, 2023
52023
Classically efficient quantum scalable Fermi-Hubbard benchmark
BT Gard, AM Meier
Physical Review A 105 (4), 042602, 2022
52022
Classically-inspired mixers for qaoa beat goemans-williamson’s max-cut at low circuit depths
R Tate, B Gard, G Mohler, S Gupta
arXiv preprint arXiv:2112.11354, 2021
42021
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