Author
Listed:
- Marie-Christine Roehsner
(University of Vienna)
- Joshua A. Kettlewell
(Singapore University of Technology and Design
National University of Singapore)
- Tiago B. Batalhão
(University of Vienna
Singapore University of Technology and Design
National University of Singapore
Universidade Federal do ABC)
- Joseph F. Fitzsimons
(Singapore University of Technology and Design
National University of Singapore
University of Vienna)
- Philip Walther
(University of Vienna
University of Vienna)
Abstract
One-time programs, computer programs which self-destruct after being run only once, are a powerful building block in cryptography and would allow for new forms of secure software distribution. However, ideal one-time programs have been proved to be unachievable using either classical or quantum resources. Here we relax the definition of one-time programs to allow some probability of error in the output and show that quantum mechanics offers security advantages over purely classical resources. We introduce a scheme for encoding probabilistic one-time programs as quantum states with prescribed measurement settings, explore their security, and experimentally demonstrate various one-time programs using measurements on single-photon states. These include classical logic gates, a program to solve Yao’s millionaires problem, and a one-time delegation of a digital signature. By combining quantum and classical technology, we demonstrate that quantum techniques can enhance computing capabilities even before full-scale quantum computers are available.
Suggested Citation
Marie-Christine Roehsner & Joshua A. Kettlewell & Tiago B. Batalhão & Joseph F. Fitzsimons & Philip Walther, 2018.
"Quantum advantage for probabilistic one-time programs,"
Nature Communications, Nature, vol. 9(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-07591-2
DOI: 10.1038/s41467-018-07591-2
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