Experimental nonlocality-based randomness generation with nonprojective measurements

S. Gómez; S. Gómez; S. Gómez; A. Mattar; E. S. Gómez; E. S. Gómez; E. S. Gómez; D. Cavalcanti; O. Jiménez Farías; A. Acín; A. Acín; G. Lima; G. Lima; G. Lima

doi:10.1364/QIM.2019.F5A.35

Quantum Information and Measurement (QIM) V: Quantum Technologies
OSA Technical Digest (Optica Publishing Group, 2019),
paper F5A.35
•https://doi.org/10.1364/QIM.2019.F5A.35

Experimental nonlocality-based randomness generation with nonprojective measurements

S. Gómez, A. Mattar, E. S. Gómez, D. Cavalcanti, O. Jiménez Farías, A. Acín, and G. Lima

Quantum Information and Measurement 2019

Rome Italy
4–6 April 2019
ISBN: 978-1-943580-56-9

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Poster Session II (F5A)

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S. Gómez, A. Mattar, E. S. Gómez, D. Cavalcanti, O. J. Farías, A. Acín, and G. Lima, "Experimental nonlocality-based randomness generation with nonprojective measurements," in Quantum Information and Measurement (QIM) V: Quantum Technologies, OSA Technical Digest (Optica Publishing Group, 2019), paper F5A.35.

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Abstract

We report on an optical setup generating more than one bit of randomness from one entangled bit. The amount of randomness is certified through the observation of Bell nonlocal correlations. To attain this result we implemented a high-purity entanglement source and a nonprojective three-outcome measurement. Our implementation achieves a gain of 27% of randomness as compared with the standard methods using projective measurements. Additionally, we estimate the amount of randomness certified in a one-sided device-independent scenario, through the observation of Einstein-Podolsky-Rosen steering. Our results prove that nonprojective quantum measurements allow extending the limits for nonlocality-based certified randomness generation using current technology.

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