Affiliation:
1. Department of Networked Systems and Services Faculty of Electrical Engineering and Informatics Budapest University of Technology and Economics Budapest Hungary
2. ELKH‐BME Information Systems Research Group Budapest Hungary
Abstract
AbstractThe performance analysis of a quantum random number generator (QRNG), operating based on the interarrival time differences between consecutive photon detections from a coherent light source, is presented. The proposed analysis approach accurately takes into account the physical properties of the single‐photon detection systems, such as discretised time measurement, the correlations induced by the asynchronous arrival of photons with respect to the time resolution grid, and the dead time after observations and provides the QRNG's relevant performance measures, such as the joint distribution of bits, lag‐r correlations, the bit generation overhead and the bit generation time. Analysis results are verified by computer simulations.
Funder
National Research, Development and Innovation Office
Publisher
Institution of Engineering and Technology (IET)
Subject
Theoretical Computer Science,Electrical and Electronic Engineering,Computer Science Applications,Computer Networks and Communications,Computational Theory and Mathematics
Reference23 articles.
1. Quantum random number generators
2. A Survey on Quantum Key Distribution
3. Quantis QRNG Chips Physical Model and Test Results. ID Quantique SA White paper 3 2020.https://marketing.idquantique.com/acton/attachment/11868/f‐3bd78746‐cb49‐49ba‐b740‐79a025e031a4/1/‐/‐/‐/‐/Quantis20results_WP.pdf
4. ID Quantique and SK Telecom Unveil the Samsung Galaxy Quantum2 the Newest QRNG‐Powered 5G Smartphone with Even More Embedded Secured Applications. ID Quantique SA Press release April 2021.https://marketing.idquantique.com/acton/attachment/11868/f‐f0f5158e‐41c2‐4817‐a78f‐e302a287b72a/1/‐/‐/‐/‐/IDQ‐SKT_Samsung%20Galaxy%20Quantum2_PR.pdf
5. 40 Gb/s quantum random number generation based on optically sampled amplified spontaneous emission
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