Laird
Egan
Lewis, L. ., Zhu, D. ., Gheorghiu, A. ., Noel, C. ., Katz, O. ., Harraz, B. ., … Monroe, C. . (2024). Experimental implementation of an efficient test of quantumness. Phys. Rev. A, 109, 012610. http://doi.org/10.1103/PhysRevA.109.012610 (Original work published January 2024)
Zhu, D. ., Kahanamoku-Meyer, G. ., Lewis, L. ., Noel, C. ., Katz, O. ., Harraz, B. ., … Monroe, C. . (2021). Interactive Protocols for Classically-Verifiable Quantum Advantage. ArXiv. http://doi.org/10.48550/arxiv.2112.05156 (Original work published December 2021)
Zhu, D. ., Kahanamoku-Meyer, G. ., Lewis, L. ., Noel, C. ., Katz, O. ., Harraz, B. ., … Monroe, C. . (2023). Interactive cryptographic proofs of quantumness using mid-circuit measurements. Nature Physics, 19, 1725–1731. http://doi.org/10.1038/s41567-023-02162-9 (Original work published August 2023)
Noel, C. ., Niroula, P. ., Risinger, A. ., Egan, L. ., Biswas, D. ., Cetina, M. ., … Monroe, C. . (2021). Observation of measurement-induced quantum phases in a trapped-ion quantum computer. Nature Phys. (in press); ArXiv:2106.05881. Retrieved from https://arxiv.org/abs/2106.05881
Noel, C. ., Niroula, P. ., Zhu, D. ., Risinger, A. ., Egan, L. ., Biswas, D. ., … Monroe, C. . (2022). Measurement-induced quantum phases realized in a trapped-ion quantum computer. Nature Physics, 18(7), 760–764. http://doi.org/10.1038/s41567-022-01619-7 (Original work published June 2022)