Optical quantum random number generators: a comparative study

被引：0

作者：

Omar Guillan-Lorenzo

Marcos Troncoso-Costas

David Alvarez-Outarelo

Francisco Javier Diaz-Otero

Juan Carlos Garcia-Escartin

机构：

[1] University of Vigo,atlanTTIC Research Center, EI Telecomunicacion

[2] Dublin City University,School of Electronic Engineering

[3] University of Valladolid,Dpto. Teoría de la Señal e Ing. Telemática

来源：

Optical and Quantum Electronics | 2023年 / 55卷

关键词：

Amplified spontaneous Emission; Quantum random number generator; Vacuum fluctuations;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Quantum random number generators give the opportunity to, in theory, obtain completely unpredictable numbers only perturbed by the noise in the measurement. The obtained data can be digitalized and processed so that it gives as a result a uniform sequence of binary random numbers without any relation with the classical noise in the system. In this work we analyze the performance of optical QRNGs with three different arrangements: a homodyne detector measuring vacuum fluctuations, a homodyne detector measuring amplified spontaneous emission from an EDFA and a spontaneous emission phase noise-based generator. The raw data from the experiments is processed using a Toeplitz extractor, giving as a result sequences of binary numbers capable of passing the NIST Statistical Test Suite.

引用

共 50 条

[21] One-chip Quantum Random Number Generator
Tisa, Simone
Zappa, Franco
QUANTUM COMMUNICATIONS REALIZED II, 2009, 7236
[22] Quantum random number generator using photon-number path entanglement
Kwon, Osung
Cho, Young-Wook
Kim, Yoon-Ho
QUANTUM COMMUNICATIONS AND QUANTUM IMAGING VIII, 2010, 7815
[23] ON THE POSSIBILITY OF USING OPTICAL Y-SPLITTER IN QUANTUM RANDOM NUMBER GENERATION SYSTEMS BASED ON FLUCTUATIONS OF VACUUM
Ivanova, A. E.
Chivilikhin, S. A.
Popov, I. Yu.
Gleim, A. V.
NANOSYSTEMS-PHYSICS CHEMISTRY MATHEMATICS, 2015, 6 (01): : 95 - 99
[24] An Unbiased Quantum Random Number Generator Based on Boson Sampling
Shi, Jinjing
Zhao, Tongge
Wang, Yizhi
Yu, Chunlin
Lu, Yuhu
Wu, Jiajie
Shi, Ronghua
Zhang, Shichao
Peng, Shaoliang
Wu, Junjie
ADVANCED QUANTUM TECHNOLOGIES, 2024, 7 (01)
[25] Device-independent quantum random-number generation
Liu, Yang
Zhao, Qi
Li, Ming-Han
Guan, Jian-Yu
Zhang, Yanbao
Bai, Bing
Zhang, Weijun
Liu, Wen-Zhao
Wu, Cheng
Yuan, Xiao
Li, Hao
Munro, W. J.
Wang, Zhen
You, Lixing
Zhang, Jun
Ma, Xiongfeng
Fan, Jingyun
Zhang, Qiang
Pan, Jian-Wei
NATURE, 2018, 562 (7728) : 548 - +
[26] Device-independent quantum random-number generation
Yang Liu
Qi Zhao
Ming-Han Li
Jian-Yu Guan
Yanbao Zhang
Bing Bai
Weijun Zhang
Wen-Zhao Liu
Cheng Wu
Xiao Yuan
Hao Li
W. J. Munro
Zhen Wang
Lixing You
Jun Zhang
Xiongfeng Ma
Jingyun Fan
Qiang Zhang
Jian-Wei Pan
Nature, 2018, 562 : 548 - 551
[27] Towards a high-speed quantum random number generator
Stucki, Damien
Burri, Samuel
Charbon, Edoardo
Chunnilall, Christopher
Meneghetti, Alessio
Regazzoni, Francesco
EMERGING TECHNOLOGIES IN SECURITY AND DEFENCE; AND QUANTUM SECURITY II; AND UNMANNED SENSOR SYSTEMS X, 2013, 8899
[28] Designing of Quantum Random Number Generator (QRNG) for Security Application
Siswanto, Meilana
Rudiyanto, Bayu
2017 3RD INTERNATIONAL CONFERENCE ON SCIENCE IN INFORMATION TECHNOLOGY (ICSITECH), 2017, : 273 - 277
[29] Characterization of a Quantum Random Number Generator Based on Vacuum Fluctuations
Ferreira, Mauricio J.
Silva, Nuno A.
Pinto, Armando N.
Muga, Nelson J.
APPLIED SCIENCES-BASEL, 2021, 11 (16):
[30] A new quantum random number generator certified by value indefiniteness
Trejo, Jose Manuel Aguero
Calude, Cristian S.
THEORETICAL COMPUTER SCIENCE, 2021, 862 : 3 - 13

← 1 2 3 4 5 →