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Source-independent quantum random number generator against tailored detector blinding attacks

Wen‐Bo Liu, Yu-Shuo Lu, Yao Fu, Sicheng Huang, Zejie Yin, Kun Jiang, Hua‐Lei Yin, Zeng‐Bing Chen

2023Optics Express23 citationsDOIOpen Access PDF

Abstract

Randomness, mainly in the form of random numbers, is the fundamental prerequisite for the security of many cryptographic tasks. Quantum randomness can be extracted even if adversaries are fully aware of the protocol and even control the randomness source. However, an adversary can further manipulate the randomness via tailored detector blinding attacks, which are hacking attacks suffered by protocols with trusted detectors. Here, by treating no-click events as valid events, we propose a quantum random number generation protocol that can simultaneously address source vulnerability and ferocious tailored detector blinding attacks. The method can be extended to high-dimensional random number generation. We experimentally demonstrate the ability of our protocol to generate random numbers for two-dimensional measurement with a generation speed of 0.1 bit per pulse.

Topics & Concepts

RandomnessRandom number generationBlindingComputer scienceDetectorQuantum cryptographyProtocol (science)CryptographyRandomness testsRandom seedQuantumAlgorithmPhysicsMathematicsQuantum informationStatisticsQuantum mechanicsTelecommunicationsBioinformaticsBiologyPathologyMedicineAlternative medicineClinical trialQuantum Mechanics and ApplicationsQuantum Information and CryptographyChaos-based Image/Signal Encryption
Source-independent quantum random number generator against tailored detector blinding attacks | Litcius