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Certifying quantum randomness within purity constraints for secure random number generation

By

Shuang Wang

1mo ago· 37 min readenInsight

Summary

This article discusses quantum random number generators (QRNGs) that exploit quantum mechanics to produce true randomness, addressing the limitations of pseudo/classical random number generators which are vulnerable to attackers with sufficient computing power. The research focuses on certifying quantum randomness within purity constraints, proposing solutions to device imperfections in practical QRNG implementations that can compromise security.

Source

bskyCertifying quantum randomness within purity constraints for secure random number generationscience.org

Key quotes

· 3 pulled
Randomness is an important resource in many fields, and generating randomness that satisfies statistical properties and privacy requirements is a crucial problem.
Pseudo or classical random number generators rely on determined algorithms or physical processes, which makes them vulnerable to outside attackers with enough computing power.
Quantum random number generators (QRNG) exploit the intrinsic randomness of quantum mechanics, making them a promising solution.
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Quantum random number generators (QRNGs) exploit quantum mechanics to produce true randomness, but practical implementations suffer from device imperfections that can compromise security. We propos...

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