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Real-Time 50-Gbit/s Spatially Multiplexed Quantum Random Number Generator Based on Vacuum Fluctuation

Ken Tanizawa, Kentaro Kato, Fumio Futami

2024Journal of Lightwave Technology13 citationsDOIOpen Access PDF

Abstract

Unpredictable random number (RN) generation is an essential technology for cryptographic applications. Quantum RN generators (QRNGs) have attracted significant attention owing to their generation of RNs utilizing the randomness guaranteed by quantum mechanics. Vacuum fluctuations are a promising entropy source of quantum randomness. These are detected using a homodyne setup with a laser source and a beam splitter. QRNGs based on vacuum fluctuations can generate RNs at a high-speed and in a stable manner. This paper reports a high-speed spatially multiplexed QRNG based on vacuum fluctuations using a single semiconductor laser diode and an integrated optical beam splitter. The QRNG obtained four independent vacuum fluctuations across a wide bandwidth of over 2 GHz. The RNs were extracted in parallel using a field-programmable gate array with analog-to-digital converters. An aggregated real-time RN generation rate of 4×12.5 Gbit/s was achieved. The generated RNs passed a randomness test based on NIST SP800-90B.

Topics & Concepts

Random number generationPhysicsRandomnessBeam splitterElectronic engineeringMultiplexingNISTLaserOpticsComputer scienceEngineeringMathematicsAlgorithmNatural language processingStatisticsChaos-based Image/Signal EncryptionCellular Automata and ApplicationsQuantum Computing Algorithms and Architecture
Real-Time 50-Gbit/s Spatially Multiplexed Quantum Random Number Generator Based on Vacuum Fluctuation | Litcius