Quantum noise extraction from the interference of laser pulses in an optical quantum random number generator
Roman Shakhovoy, Denis Sych, Violetta Sharoglazova, Alexander Udaltsov, Aleksey Fedorov, Yury Kurochkin
Abstract
We propose a method for quantum noise extraction from the interference of laser pulses with random phase. Our technique is based on the calculation of a parameter, which we called the quantum reduction factor, and which allows for the determination of the contributions of quantum and classical noises with the assumption that classical fluctuations exhibit Gaussian distribution. To the best of our knowledge, the concept of quantum reduction factor is introduced for the first time. We use such an approach to implement the post-processing-free optical quantum random number generator with the random bit generation rate of 2 Gbps.
Topics & Concepts
Quantum noisePhysicsOpticsQuantumQuantum imagingQuantum sensorQuantum opticsNoise (video)Interference (communication)Random number generationQuantum error correctionGenerator (circuit theory)GaussianShot noiseLaserQuantum channelQuantum algorithmQuantum mechanicsReduction (mathematics)Gaussian noiseQuantum networkQuantum amplifierQuantum limitQuantum technologyQuantum informationNoise reductionQuantum information scienceQuantum statePhase noiseQuantum fluctuationQuantum Information and CryptographyChaos-based Image/Signal EncryptionQuantum chaos and dynamical systems