Frontiers of Optoelectronics (Sep 2023)

Massive and parallel 10 Tbit/s physical random bit generation with chaotic microcomb

  • Yuqi Hu,
  • Qingsong Bai,
  • Xi Tang,
  • Wei Xiong,
  • Yilu Wu,
  • Xin Zhang,
  • Yanlan Xiao,
  • Runchang Du,
  • Leiji Liu,
  • Guangqiong Xia,
  • Zhengmao Wu,
  • Junbo Yang,
  • Heng Zhou,
  • Jiagui Wu

DOI
https://doi.org/10.1007/s12200-023-00081-4
Journal volume & issue
Vol. 16, no. 1
pp. 1 – 14

Abstract

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Abstract Ultrafast physical random bit (PRB) generators and integrated schemes have proven to be valuable in a broad range of scientific and technological applications. In this study, we experimentally demonstrated a PRB scheme with a chaotic microcomb using a chip-scale integrated resonator. A microcomb contained hundreds of chaotic channels, and each comb tooth functioned as an entropy source for the PRB. First, a 12 Gbits/s PRB signal was obtained for each tooth channel with proper post-processing and passed the NIST Special Publication 800-22 statistical tests. The chaotic microcomb covered a wavelength range from 1430 to 1675 nm with a free spectral range (FSR) of 100 GHz. Consequently, the combined random bit sequence could achieve an ultra-high rate of about 4 Tbits/s (12 Gbits/s × 294 = 3.528 Tbits/s), with 294 teeth in the experimental microcomb. Additionally, denser microcombs were experimentally realized using an integrated resonator with 33.6 GHz FSR. A total of 805 chaotic comb teeth were observed and covered the wavelength range from 1430 to 1670 nm. In each tooth channel, 12 Gbits/s random sequences was generated, which passed the NIST test. Consequently, the total rate of the PRB was approximately 10 Tbits/s (12 Gbits/s × 805 = 9.66 Tbits/s). These results could offer potential chip solutions of Pbits/s PRB with the features of low cost and a high degree of parallelism. Graphical Abstract

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