Papers (this list may not be up to date — see https://scholar.google.com/citations?user=Qsv5r6AAAAAJ&hl=en for a current list):
William Kirby, Mario Motta, and Antonio Mezzacapo, Exact and efficient Lanczos method on a quantum computer, Quantum 7, 1018 (2023).
William Kirby, Bryce Fuller, Charles Hadfield, and Antonio Mezzacapo, Second-quantized fermionic operators with polylogarithmic qubit and gate complexity, PRX Quantum 3, 020351 (2022), arxiv:2109.14465.
Michael Kreshchuk, William 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 [quant-ph].
Tim J. Weaving, Alexis Ralli, William Kirby, Andrew Tranter, Peter J. Love, and Peter V. Coveney, A stabilizer framework for Contextual Subspace VQE and the noncontextual projection ansatz, arxiv preprint (2022), arxiv:2204.02150 [quant-ph].
Gokul Subramanian Ravi, Pranav Gokhale, Yi Ding, William Kirby, Kaitlin N. Smith, Jonathan M. Baker, Peter J. Love, Henry Hoffmann, Kenneth R. Brown, and Frederic T. Chong, CAFQA: Clifford Ansatz For Quantum Accuracy, arxiv preprint (2022), arxiv:2202.12924 [quant-ph].
Ismail Yunus Akhalwaya, Yang-Hui He, Lior Horesh, Vishnu Jejjala, William Kirby, Kugendran Naidoo, and Shashanka Ubaru, Efficient Quantum Computation of the Fermionic Boundary Operator, Phys. Rev. A 106, 022407 (2022), arxiv:2201.11510.
William Kirby, Sultana Hadi, Michael Kreshchuk, and Peter J. Love, Quantum Simulation of Second-Quantized Hamiltonians in Compact Encoding, Phys. Rev. A 104, 042607 (2021), arxiv:2105.10941.
William Kirby and Peter J. Love, Variational quantum eigensolvers for sparse Hamiltonians, Phys. Rev. Lett. 127, 110503 (2021), arxiv:2012.07171.
William Kirby, Andrew Tranter, and Peter J. Love, Contextual Subspace Variational Quantum Eigensolver, Quantum 5, 456 (2021).
Michael Kreshchuk, Shaoyang Jia, William 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 [quant-ph].
Michael Kreshchuk, Shaoyang Jia, William Kirby, Gary Goldstein, James P. Vary, and Peter J. Love, Light-Front Field Theory on Current Quantum Computers, Entropy 23(5), 597 (2021).
Antonio E. Russo, William Kirby, Kenneth M. Rudinger, Andrew D. Baczewski, and Shelby Kimmel, Consistency Testing for Robust Phase Estimation, Phys. Rev. A 103, 042609 (2021), arxiv:2011.13442 [quant-ph].
William Kirby and Peter J. Love, Classical Simulation of Noncontextual Pauli Hamiltonians, Phys. Rev. A 102, 032418 (2020), arxiv:2002.05693 [quant-ph].
Andrew Zhao, Andrew Tranter, William 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 [quant-ph].
William Kirby and Peter J. Love, Contextuality Test of the Nonclassicality of Variational Quantum Eigensolvers, Phys. Rev. Lett. 123, 200501 (2019), arXiv:1904.02260.
William Kirby and Frederick W. Strauch, A Practical Quantum Algorithm for the Schur Transform, Quantum Information and Computation, 18 (9&10), 0721-0742 (2018), arXiv:1709.07119 [quant-ph].
William Kirby, A Practical Quantum Schur Transform, Undergraduate Honors Thesis, Williams College Physics Department (2017). Download full text.