Entropy (Apr 2023)

Development of a High Min-Entropy Quantum Random Number Generator Based on Amplified Spontaneous Emission

  • Charlotte K. Duda,
  • Kristina A. Meier,
  • Raymond T. Newell

DOI
https://doi.org/10.3390/e25050731
Journal volume & issue
Vol. 25, no. 5
p. 731

Abstract

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We present the theory, architecture, and performance characteristics of a quantum random number generator (QRNG) which operates in a PCI express form factor-compatible plug-and-play design. The QRNG relies on a thermal light source (in this case, amplified spontaneous emission), which exhibits photon bunching according to the Bose–Einstein (BE) statistics. We demonstrate that 98.7% of the unprocessed random bit stream min-entropy is traceable to the BE (quantum) signal. The classical component is then removed using a non-reuse shift-XOR protocol, and the final random numbers are generated at a 200 Mbps rate and shown to pass the statistical randomness test suites FIPS 140-2, Alphabit, SmallCrush, DIEHARD, and Rabbit of the TestU01 library.

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