[1]张建忠,李璞,张英英,等.宽带混沌激光实现高速随机数的产生[J].深圳大学学报理工版,2011,28(No.4(283-376)):316-324.
 ZHANG Jian-zhong,LI Pu,ZHANG Ying-ying,et al.High-speed random number generation based on wideband chaotic laser[J].Journal of Shenzhen University Science and Engineering,2011,28(No.4(283-376)):316-324.
点击复制

宽带混沌激光实现高速随机数的产生()
分享到:

《深圳大学学报理工版》[ISSN:1000-2618/CN:44-1401/N]

卷:
第28卷
期数:
2011年No.4(283-376)
页码:
316-324
栏目:
光电工程
出版日期:
2011-07-20

文章信息/Info

Title:
High-speed random number generation based on wideband chaotic laser
文章编号:
1000-2618(2011)04-0316-09
作者:
张建忠李璞张英英陈莎莎王云才
太原理工大学物理与光电工程系,光电工程研究所,太原 030024
Author(s):
ZHANG Jian-zhongLI PuZHANG Ying-yingCHEN Sha-shaand WANG Yun-cai
Institute of Optoelctronic Engineering, Department of Physics and Optoelectronics, Taiyuan University of Technology, Taiyuan 030024, P.R.China
关键词:
混沌激光随机数模数转换全光信号处理半导体激光器光通信
Keywords:
chaotic laserrandom numberanalog-to-digital conversionall-optical signal processingsemiconductor laserfiber communication
分类号:
TN 918;N 93
文献标志码:
A
摘要:
报道该课题组基于宽带混沌激光实现高速随机数产生的最新研究成果.利用外光注入反馈半导体激光器产生带宽为16.8 GHz的混沌激光作为物理熵源,经比较、触发实现对混沌信号1位模数转换,硬件产生速率达2.87 Gbit/s的随机数.实验研究了通过8位模数转换提取1 Gbit/s随机数的实现方案.为突破电子器件带宽限制,实现了与光通信网络信号直接兼容加密,提出并证实了基于宽带混沌激光实现速率高达10 Gbit/s的全光随机数产生方案.上述方案产生的随机数全部通过美国国家标准与技术研究院(NIST)及国际通用随机数检测程序(ENT)的测试.
Abstract:
The studies on high-speed random number generation based on wideband chaotic laser are reported in this paper.The 16.8 GHz wide bandwidth chaotic laser from an optical feedback laser diode with optical injection was employed as the physical entropy source.The chaotic signal was sampled and converted by a 1-bit analog-to-digital converter to a binary sequence with the rate of up to 2.87 Gbit/s in real time.The 1 Gbit/s random numbers generation with 8-bit analog-to-digital conversion based on wideband chaotic laser was investigated.Free from the electric-device bandwidth,a scheme of all-optical random number generator using wideband chaotic laser was proposed and demonstrated. The all-optical random numbers at the rate of 10 Gbit/s are compatible with the optical signal transmitted in optical communication networks.The above generated high-speed bit sequences can pass standard statistical tests for randomness.

参考文献/References:

[1] 王伦.研究人员发现Netscape Navigator存在严重安全隐患[EB/OL].[2011-03-16]. http://manager.ccidnet.com/news/buss/1999/12/16/54_225.html
[2] Jun B,Kocher P.因特尔随机数发生器[EB/OL].[2011-03-16].http://www.cryptography.com/public/pdf/IntelRNG.pdf (英文版)
[3] ComSire-Quantum World Corp.R2000KU硬件随机数发生器[EB/OL].[2011-03-16]. http://www.comscire.com (英文版)
[4] Protego Information AB.R200-USB 真随机数发生器单元器件[EB/OL].[2011-03-16]. http://www.protego.se/pdf/r200.pdf (英文版)
[5] 刘波.高速数字物理噪声源芯片[J].中国科技成果,2008,5:46.
[6] 邓焕,金荣华,陈俊,等.基于振荡器的高性能真随机数发生器[J].固体电子学研究与进展,2007,27(3):391-396.
[7] 黄谆,周涛,白国强,等.一种基于混沌的真随机源电路[J].半导体学报,2004,25(3):333-339.
[8] 张亮,戎蒙恬,诸悦,等.基于混沌系统的真随机数发生器芯片设计和实现[J].上海交通大学学报,2006,40(3):421-430.
[9] 俞俊,沈海斌,严晓浪,等.基于混沌的高速真随机数发生器的设计与实现[J].半导体学报,2004,25(8):1013-1018.
[10] Wayne M A,Kwiat P C.基于光脉冲的低偏置高速量子随机数发生器[J].光学快讯,2010,18(9):9351-9357.(英文版)
[11] Qi B,Chi Y M,Lo H K,等.基于单模半导体激光器的相位噪声产生高速随机数[J].光学快报,2010,35(3):312-314.(英文版)
[12] Guo H,Tang W Z,Liu Y,等.基于激光器相位噪声产生真随机数[J].物理评论E,2010,81(051137):1-4.(英文版)
[13] Argyris A,Hamacher M,Chlouverakis K E,等.混沌通信中的光子集成光源器件[J],物理评论快报,2008,100(4):194101-1-194101-4.(英文版)
[14] Argyris A,Syrridis D,Larger L,等.基于商用光纤链路实现高速混沌通信[J].自然,2005,437:343-346.(英文版)
[15] LIN Fan-yi,LIU Jia-ming.基于激光器非线性动力性特性的混沌雷达[J].IEEE 量子电子杂志,2004,40(6):815-820.(英文版)
[16] 王云才,汤君华,韩国华,等.一种基于混沌激光的真随机码发生器及其产生随机码的方法:中国,200710062140.1[P].2009-12-09.
[17] Uchida A,Amano K,Inoue M,等.基于混沌半导体激光器产生快速物理随机数[J].自然杂志:光子学子刊,2008,2(12):728-732.(英文版)
[18] Reidler I,Aviad Y,Rosenbluh M,等.基于混沌半导体激光器产生超高速随机数[J].物理评论快报,2009,103(024102):1-4.(英文版)
[19] Kanter I,Aviad Y,Reidler I,等.一个光学超快随机数发生器[J].自然杂志:光子学子刊,2010,4(1):58-61.(英文版)
[20] Hirano K,Yamazaki T,Morikatsu S,等.基于半导体激光器的超宽带混沌激光产生快速随机数[J].光学快讯,2010,18(6):5512-5524.(英文版)
[21] Argyris A,Deligiannidis S,Pikasis E,等.基于混沌光子集成器件研制的140 Gb/s随机数发生器[J].光学快讯,2010,18(18):18763-18768.(英文版)
[22] Harayama T,Sunada S,Yoshimura K,等.基于片上混沌光源产生快速随机数[J].物理评论A,2011,83(3):031803-1-031803-4.(英文版)
[23] 李璞,王云才,张建忠.全光快速随机数发生器[J].光学快讯,2010,18(19):20360-20369.(英文版)
[24] 王安帮,王云才,贺虎成.光反馈半导体激光器混沌信号的带宽增强[J].IEEE 光子技术快报,2008,20(19):1633-1635.(英文版)
[25] 张英英,张建忠,张明江,等.基于带宽增强的混沌激光产生2.87 Gb/s 随机数[J].中国光学快报,2011,9(3):031404-1-031404-4.(英文版)
[26] NIST.一组用在密码学中的随机数和伪随机数统计测试项[R].[出版地不详]:[出版者不详],2001.(英文版)
[27] ENT.一个伪随机序列测试程序[CP].(英文版)
[28] 陈莎莎,张建忠,杨玲珍,等.基于混沌激光产生1 Gbit/s的随机数[J].物理学报,2011,60(1):010501-1-010501-6.
[29] 张继兵,张建忠,杨毅彪,等.外腔半导体激光器随机数熵源的腔长分析[J].物理学报,2011,59(11):7679-7685.
[30] Honjo T,Uchida A,Amano K,等.混沌半导体激光器产生的高速随机数在差分相移量子密钥分发实验中的应用[J].光学快讯,2009,17(11):9053-9061.(英文版)


[1] WANG Lun.Serious safety leaks exist in Netscape Navigator found by researchers[EB/OL]. [2011-03-16].http://manager.ccidnet.com/news/buss/1999/12/16/54_225.html.(in Chinese)
[2] Jun B,Kocher P.The Intel random number generator[EB/OL].[2011-03-16]. http://www.cryptography.com/public/pdf/IntelRNG.pdf
[3] ComSire-Quantum World Corp.R2000KU hardware random number generator[EB/OL].[2011-03-16].http://www.comscire.com
[4] Protego Information AB.The R200-USB TRNG Units[EB/OL].[2011-03-16]. http://www.protego.se/pdf/r200.pdf
[5] LIU Bo.High-speed digital physical noise source chips[J].China Science and Technology Achievements,2008,5:46.(in Chinese)
[6] DENG Huan,JIN Rong-hua,CHEN Jun,et al.Oscillator-based high performance truly random number generator[J].Research and Progress of SSE,2007,27(3):391-396.(in Chinese)
[7] HUANG Zhun,ZHOU Tao,BAI Guo-qiang,et al.A truly random source circuit based on chaotic dynamical system[J].Chinese Journal of Semiconductors,2004,25(3):333-339.(in Chinese)
[8] ZHANG Liang,RONG Meng-tian,ZHU Yue,et al.The ASIC design and realization of a truly random number generator based on chaos[J].Journal of Shanghai Jiaotong University,2006,40(3):421-430.(in Chinese)
[9] YU Jun,SHEN Hai-bin,YAN Xiao-lang.Implementation of chaos-based high-speed truly random number generator[J].Chinese Journal of Semiconductors,2004,25(8):1013-1018.(in Chinese)
[10] Wayne M A,Kwiat P C.Low-bias high-speed quantum random number generator via shaped optical pulses[J].Optics Express,2010,18(9):9351-9357.
[11] Qi B,Chi Y M,Lo H K,et al.High-speed quantum random number generation by measuring phase noise of a single-mode laser[J].Optics Letters,2010,35(3):312-314.
[12] Guo H,Tang W Z,Liu Y,et al.Truly random number generation based on measurement of phase noise of a laser[J].Physical Review E,2010,81(051137):1-4.
[13] Argyris A,Hamacher M,Chlouverakis K E,et al.Photonic integrated device for chaos applications in communications[J].Physcial Review Letters,2008,100(4):194101-1-194101-4.
[14] Argyris A,Syrridis D,Larger L,et al.Chaos-based communications at high bit rates using commercial fibre-optic links[J].Nature,2005,437:343-346.
[15] LIN Fan-yi,LIU Jia-ming.Chaotic radar using nonlinear laser dynamics [J].IEEE Journal of Quantum Electronics,2004,40(6):815-820.
[16] WANG Yun-cai,TANG Jun-hua,HAN Guo-hua,et al.True random code generator based on chaotic laser and its producing random code method:China,200710062140.1[P].2009-12-09.(in Chinese)
[17] Uchida A,Amano K,Inoue M,et al.Fast physical random bit generation with chaotic semiconductor lasers[J].Nature Photonics,2008,2(12):728-732.
[18] Reidler I,Aviad Y,Rosenbluh M,et al.Ultrahigh-speed random number generation based on a chaotic semiconductor laser[J].Physical Review Letters,2009,103(024102):1-4.
[19] Kanter I,Aviad Y,Reidler I,et al.An optical ultrafast random bit generator[J].Nature Photonics,2010,4(1):58-61.
[20] Hirano K,Yamazaki T,Morikatsu S,et al.Fast random bit generation with bandwidth-enhanced chaos in semiconductor lasers[J].Optics Express,2010,18(6):5512-5524.
[21] Argyris A,Deligiannidis S,Pikasis E,et al.Implementation of 140 Gb/s true random bit generator based on a chaotic photonic integrated circuit[J].Optics Express,2010,18(18):18763-18768.
[22] Harayama T,Sunada S,Yoshimura K,et al.Fast nondeterministic random-bit generation using on-chip chaos lasers[J].Physical Review A,2011,83(3):031803-1-031803-4.
[23] LI Pu,WANG Yun-cai,ZHANG Jian-zhong.All-optical fast random number generator[J].Optics Express,2010,18(19):20360-20369.
[24] WANG An-bang,WANG Yun-cai,HE Hu-cheng.Enhancing the bandwidth of the optical chaotic signal generated by a semiconductor laser with optical feedback[J].IEEE Photonics Technology Letters,2008,20(19):1633-1635.
[25] ZHANG Ying-ying,ZHANG Jian-zhong,ZHANG Min-jiang,et al.2.87-Gb/s random bit generation based on bandwidth-enhanced chaotic laser[J].Chinese Optics Letters,2011,9(3):031404-1-031404-4.
[26] NIST.A statistical test suite for random and pseudorandom number generator for cryptographic applications[R].[s.l.]:[s.n.],2001.
[27] ENT.A pseudorandom number sequence test program[CP].
[28] CHEN Sha-sha,ZHANG Jian-zhong,YANG Ling-zhen,et al.One Gbit/s random bit generation based on chaotic laser[J].Acta Physica Sinica,2011,60(1):010501-1-010501-6.(in Chinese)
[29] ZHANG Ji-bing,ZHANG Jian-zhong,YANG Yi-biao,et al.Randomness analysis of external cavity semiconductor laser as entropy source[J].Acta Physica Sinica,2010,59(11):7679-7685.(in Chinese)
[30] Honjo T,Uchida A,Amano K,et al.Differential-phase-shift quantum key distribution experiment using fast physical random bit generator with chaotic semiconductor lasers[J].Optics Express,2009,17(11):9053-9061.

相似文献/References:

[1]王云才,钱建军.激光混沌信号相关法测距研究[J].深圳大学学报理工版,2010,27(4):379.
 WANG Yun-cai and QIAN Jian-jun.Correlation range finding with chaotic laser signal[J].Journal of Shenzhen University Science and Engineering,2010,27(No.4(283-376)):379.
[2]马喆,张明江,刘慧,等.混沌激光布里渊散射的分布式光纤温度传感[J].深圳大学学报理工版,2015,32(6):586.[doi:10.3724/SP.J.1249.2015.06586]
 Ma Zhe,Zhang Mingjiang,Liu Hui,et al.Distributed optical fiber temperature sensing based on chaotic light Brillouin scattering[J].Journal of Shenzhen University Science and Engineering,2015,32(No.4(283-376)):586.[doi:10.3724/SP.J.1249.2015.06586]

备注/Memo

备注/Memo:
收稿日期:2010-03-27;修回日期:2011-05-05
基金项目:国家自然科学基金资助项目(60927007),山西省自然科学基金资助项目(2010021003-4)
作者简介:张建忠(1979-),男(汉族),山西省大同市人,太原理工大学博士研究生.E-mail:zhajianzho@163.com
通讯作者:王云才(1965-),男(汉族),太原理工大学教授、博士生导师.E-mail:wangyc@tyut.edu.cn
更新日期/Last Update: 2011-07-21