Contextuality and Wigner Negativity Are Equivalent for Continuous-Variable Quantum Measurements
Abstract
Quantum computers promise considerable speedups with respect to their classical counterparts. However, the identification of the innately quantum features that enable these speedups is challenging. In the continuous-variable setting -- a promising paradigm for the realization of universal, scalable, and fault-tolerant quantum computing -- contextuality and Wigner negativity have been perceived as two such distinct resources. Here we show that they are in fact equivalent for the standard models of continuous-variable quantum computing. While our results provide a unifying picture of continuous-variable resources for quantum speedup, they also pave the way toward practical demonstrations of continuous-variable contextuality and shed light on the significance of negative probabilities in phase-space descriptions of quantum mechanics.
Additional Information
© 2022 American Physical Society. The authors would like to thank M. Howard, S. Mansfield, and T. Douce for enlightening discussions. We are also grateful to D. Markham, E. Kashefi, E. Diamanti, and F. Grosshans for their mentorship and the wonderful group they have created at LIP6. U. C. acknowledges interesting discussions with S. Mehraban and J. Preskill. U. C. acknowledges funding provided by the Institute for Quantum Information and Matter, a National Science Foundation Physics Frontiers Center (NSF Grant No. PHY-1733907). R. I. B. was supported by the Agence Nationale de la Recherche VanQuTe project (No. ANR-17-CE24-0035).Attached Files
Published - PhysRevLett.129.230401.pdf
Supplemental Material - SM.pdf
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Additional details
- Eprint ID
- 121342
- Resolver ID
- CaltechAUTHORS:20230509-823969500.5
- Institute for Quantum Information and Matter (IQIM)
- NSF
- PHY-1733907
- Agence Nationale de la Recherche (ANR)
- ANR-17-CE24-0035
- Created
-
2023-06-27Created from EPrint's datestamp field
- Updated
-
2023-06-27Created from EPrint's last_modified field
- Caltech groups
- Institute for Quantum Information and Matter