Chaos with Gaussian invariant distribution by quantum-noise random phase feedback

• URL: http://arxiv.org/abs/2306.06912v1
• Date: Mon, 12 Jun 2023 07:33:23 GMT
• Title: Chaos with Gaussian invariant distribution by quantum-noise random phase feedback
• Authors: Yanqiang Guo, Haifeng Li, Yingqi Wang, Xiangyu Meng, Tong Zhao and Xiaomin Guo
• Abstract summary: The quantum noise from vacuum fluctuations is acquired by balanced homodyne detection and injected into a phase modulator to form a random phase feedback. By the quantum-noise random phase feedback, the transient intensity distributions of the chaotic outputs are improved. The chaotic time-delay signature and mean permutation entropy are suppressed to 0.036 and enhanced to 0.999 using the random phase feedback.
• Score: 5.604987100566532
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We experimentally present a random phase feedback based on quantum noise to generate a chaotic laser with Gaussian invariant distribution. The quantum noise from vacuum fluctuations is acquired by balanced homodyne detection and injected into a phase modulator to form a random phase feedback. An optical switch using high-speed intensity modulator is employed to reset the chaotic states repeatedly and the time evolutions of intensity statistical distributions of the chaotic states stemming from the initial noise are measured. By the quantum-noise random phase feedback, the transient intensity distributions of the chaotic outputs are improved from asymmetric invariant distributions to Gaussian invariant distributions, and the Gaussian invariant distribution indicates a randomly perturbed dynamical transition from microscopic initial noise to macroscopic stochastic fluctuation. The effects of phase feedback bandwidth and modulation depth on the invariant distributions are investigated experimentally. The chaotic time-delay signature and mean permutation entropy are suppressed to 0.036 and enhanced to 0.999 using the random phase feedback, respectively. The high-quality chaotic laser with Gaussian invariant distribution can be a desired random source for ultrafast random number generation and secure communication.

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