Publications
Oliver Maupin, Peter J. Love, et al., Error mitigation, optimization, and extrapolation on a trapped ion testbed, arXiv preprint (2023), arxiv:2307.07027.
John DeBrota and Peter J. Love, Quantum and Classical Bayesian Agents, Quantum 6, 713 (2022).
Michael Kreshchuk, William M. Kirby, Gary Goldstein, Hugo Beauchemin, and Peter J. Love, Quantum Simulation of Quantum Field Theory in the Light-Front Formulation, Phys. Rev. A 105, 032418 (2022), arxiv:2002.04016.
Kenneth Robbins and Peter J. Love, Benchmarking near-term quantum devices with the variational quantum eigensolver and the Lipkin-Meshkov-Glick model, Phys. Rev. A 104, 022412, (2021).
William M. Kirby, Sultana Hadi, Michael Kreshchuk, and Peter J. Love, Quantum Simulation of Second-Quantized Hamiltonians in Compact Encoding, Phys. Rev. A 104, 042607 (2021).
William M. Kirby and Peter J. Love, Variational quantum eigensolvers for sparse Hamiltonians, Phys. Rev. Lett. 127, 110503 (2021).
Chi-Ning Chou, Peter J. Love, Juspreet Singh Sandhu, and Jonathan Shi, Limitations of Local Quantum Algorithms on Maximum Cuts of Sparse Hypergraphs and Beyond, arXiv preprint (2021), arxiv:2108.06049.
William M. Kirby, Andrew Tranter, and Peter J. Love, Contextual Subspace Variational Quantum Eigensolver, Quantum 5, 456 (2021).
Michael Kreshchuk, Shaoyang Jia, William M. Kirby, Gary Goldstein, James P. Vary, and Peter J. Love, Simulating hadronic physics on noisy intermediate-scale quantum devices using basis light-front quantization, Phys. Rev. A 103, 062601 (2021), arxiv:2011.13443.
Michael Kreshchuk, Shaoyang Jia, William M. Kirby, Gary Goldstein, James P. Vary, and Peter J. Love, Light-Front Field Theory on Current Quantum Computers, Entropy 23(5), 597 (2021).
Chi-Ning Chou, Juspreet Singh Sandhu, Mien Brabeeba Wang, and Tiancheng Yu, A General Framework for Analyzing Stochastic Dynamics in Learning Algorithms, arXiv preprint (2021), arxiv:2006.06171.
Yifei Huang and Peter J. Love, Feynman-path type simulation using stabilizer projector decomposition of unitaries, arXiv preprint (2020), arXiv:2009.05110.
William M. Kirby and Peter J. Love, Classical Simulation of Noncontextual Pauli Hamiltonians, Phys. Rev. A 102, 032418 (2020), arxiv:2002.05693.
Andrew Tranter, Peter J. Love, Florian Mintert, Nathan Wiebe, and Peter V. Coveney, Ordering of Trotterization: Impact on Errors in Quantum Simulation of Electronic Structure, Entropy 2019, 21(12), 1218, arxiv:1912.07555.
Andrew Zhao, Andrew Tranter, William M. Kirby, Shu Fay Ung, Akimasa Miyake, and Peter J. Love, Measurement reduction in variational quantum algorithms, Phys. Rev. A 101, 062322 (2020), arXiv:1908.08067.
William M. Kirby and Peter J. Love, Contextuality Test of the Nonclassicality of Variational Quantum Eigensolvers, Phys. Rev. Lett. 123, 200501 (2019), arXiv:1904.02260.
Yifei Huang and Peter J. Love, Approximate stabilizer rank and improved weak simulation of Clifford-dominated circuits for qudits, Phys. Rev. A 99, 052307 (2019), arxiv:1808.02406.
Lucas Kocia and Peter J. Love, The non-disjoint ontic states of the Grassmann ontological model, transformation contextuality, and the single qubit stabilizer subtheory, J. Phys. A: Math. Theor. 52 095303 (2019), arxiv:1805.09514.
Lucas Kocia and Peter J. Love, Stationary Phase Method in Discrete Wigner Functions and Classical Simulation of Quantum Circuits, arXiv preprint (2018), arxiv:1810.03622.
Lucas Kocia and Peter J. Love, Measurement contextuality and Planck's constant, New J. Phys. 20 073020 (2018), arxiv:1711.08066.
Andrew Tranter, Peter J. Love, Florian Mintert, and Peter V. Coveney, A Comparison of the Bravyi–Kitaev and Jordan–Wigner Transformations for the Quantum Simulation of Quantum Chemistry, J. Chem. Theory Comput. 14, 11, 5617-5630 (2018), arxiv:1812.02233.
Lucas Kocia and Peter J. Love, Discrete Wigner formalism for qubits and noncontextuality of Clifford gates on qubit stabilizer states, Phys. Rev. A 96, 062134 (2017), arxiv:1705.08869.
Lucas Kocia, Yifei Huang, and Peter J. Love, Discrete Wigner Function Derivation of the Aaronson–Gottesman Tableau Algorithm, Entropy 2017, 19(7), 353, arxiv:1703.04630.
Lucas Kocia, Yifei Huang, and Peter J. Love, Semiclassical formulation of the Gottesman-Knill theorem and universal quantum computation, Phys. Rev. A 96, 032331 (2017), arxiv:1612.05649.
Andrew Tranter, Sarah Sofia, Jake Seeley, Michael Kaicher, Jarrod McClean, Ryan Babbush, Peter V. Coveney, Florian Mintert, Frank Wilhelm, and Peter J. Love, The Bravyi–Kitaev transformation: Properties and applications, International Journal of Quantum Chemistry 115 (19), 1431-1441 (2015).