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High-entropy chaos generation using semiconductor lasers subject to intensity-modulated optical injection for certified physical random number generation

Chin-Hao Tseng, Ryo Funabashi, Kazutaka Kanno, Atsushi Uchida, Chia-Chien Wei, Sheng-Kwang Hwang

2021Optics Letters39 citationsDOI

Abstract

This study investigates high-entropy chaos generation using a semiconductor laser subject to intensity-modulated optical injection for certified physical random number generation. Chaos with a continuous spectral profile that is not only widely distributed but also broadly flattened over a bandwidth of 33 GHz is generated. The former suggests that the chaos can be sampled at a high rate while keeping sufficient un-correlation between data samples, and the latter indicates that the chaos possesses high entropy, both of which enhance the generation rate of physical random numbers with guaranteed unpredictability. A minimum entropy value of 2.19 bits/sample is obtained without any post-processing and by excluding the contribution from measurement noise, suggesting that, to the least extent, the chaotic source can be used as a 2-bit physical random number generator at a rate of 160 Gbits/s.

Topics & Concepts

Random number generationSemiconductor laser theoryChaoticOpticsEntropy (arrow of time)LaserPhysicsOptical chaosKey generationStatistical physicsComputer scienceQuantum mechanicsCryptographyAlgorithmArtificial intelligenceChaos-based Image/Signal EncryptionChaos control and synchronizationNeural dynamics and brain function
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