Classical proofs of quantum knowledge
- Creators
- Vidick, Thomas
- Zhang, Tina
Abstract
We define the notion of a proof of knowledge in the setting where the verifier is classical, but the prover is quantum, and where the witness that the prover holds is in general a quantum state. We establish simple properties of our definition, including that nondestructive classical proofs of quantum knowledge are impossible for nontrivial states, and that, under certain conditions on the parameters in our definition, a proof of knowledge protocol for a hard-to-clone state can be used as a (destructive) quantum money verification protocol. In addition, we provide two examples of protocols (both inspired by private-key classical verification protocols for quantum money schemes) which we can show to be proofs of quantum knowledge under our definition. In so doing, we introduce new techniques for the analysis of such protocols which build on results from the literature on nonlocal games. Finally, we show that, under our definition, the verification protocol introduced by Mahadev (FOCS 2018) is a classical argument of quantum knowledge for QMA relations.
Additional Information
We thank Andru Gheorghiu for useful feedback. Thomas Vidick is supported by NSF CAREER Grant CCF-1553477, AFOSR YIP award number FA9550-16-1-0495, a CIFAR Azrieli Global Scholar award, MURI Grant FA9550-18-1-0161 and the IQIM, an NSF Physics Frontiers Center (NSF Grant PHY-1125565) with support of the Gordon and Betty Moore Foundation (GBMF-12500028).Attached Files
Submitted - 2005.01691.pdf
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Additional details
- Eprint ID
- 104615
- Resolver ID
- CaltechAUTHORS:20200728-145122122
- NSF
- CCF-1553477
- Air Force Office of Scientific Research (AFOSR)
- FA9550-16-1-0495
- Canadian Institute for Advanced Research (CIFAR)
- Air Force Office of Scientific Research (AFOSR)
- FA9550-18-1-0161
- Institute for Quantum Information and Matter (IQIM)
- NSF
- PHY-1125565
- Gordon and Betty Moore Foundation
- GBMF-12500028
- Created
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2020-07-28Created from EPrint's datestamp field
- Updated
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2023-06-02Created from EPrint's last_modified field
- Caltech groups
- Institute for Quantum Information and Matter