耦合半导体激光器的多调制延时混沌同步

胡菊菊; 马军山; 高小燕

doi:10.3969/j.issn.1001-3806.2010.04.003

耦合半导体激光器的多调制延时混沌同步

1.
上海理工大学光电信息与计算机工程学院上海 200093;
2.
江西师范大学物理与通信电子学院南昌 330022

作者简介: 胡菊菊(1979- ),女,讲师,博士研究生,主要从事混沌光通信方面的研究工作..

通讯作者: 马军山, junshanma@163.com ;

基金项目:
上海市教委科研创新基金资助项目(09YZ223);上海市研究生创新基金资助项目(JWCXSL0901)
中图分类号: TN248.4;TN929.1

Chaos synchronization in coupled semiconductor lasers of multiple modulated time delays

1.
School of Optical-Electrical Information and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China;
2.
College of Physics & Communication Electronics, Jiangxi Normal University, Nanchang 330022, China

Corresponding author: MA Jun-shan, junshanma@163.com ;

CLC number: TN248.4;TN929.1

摘要: 为了研究多调制延时混沌系统的动力学,用数值计算法研究了非相干光反馈与非相干光注入半导体激光器的多常数延时与多调制延时混沌同步,由于该系统是基于非相干注入的,所以不需要接收激光器与发送激光器频率完全匹配。另外,研究了非相干光反馈半导体激光器输出自相关函数。结果表明,多常数延时和多调制延时两种情况下都能获得高质量的同步,但在多调制延时系统中自相关函数的延时标识可以被隐藏,这一特性大大提高了系统的安全性,非常适用于混沌保密通信系统。
- 激光光学 /
- 混沌同步 /
- 非相干光反馈与非相干光注入 /
- 多常数延时 /
- 多调制延时
Abstract: To exam the chaotic dynamics of multiple modulated delays system,the synchronization in multiple constant and modulated time delay chaotic lasers subject to incoherent optical feedbacks and incoherent optical injection is numerically investigated,in which the semiconductor lasers are subject to incoherent injection that fine tuning of optical frequency is not required.Furthermore,the autocorrelation function of the incoherent feedback semiconductor laser output is also investigated.The results indicate that high quality of synchronization can be obtained under both the cases.However,the signatures of time delays under modulated delays case can be hidden,which largely improves the system security and is important for the suitability of such laser systems for secure chaos-based communication systems.
- laser optics /
- chaos synchronization /
- incoherent optical feedback and incoherent optical injection /
- multiple constant delays /
- multiple modulated delays

[1]	PECORA L M,CARROLL T L.Synchronization in chaotic systems[J].Phys Rev Lett,1990,64(8):821-824.
[2]	COLET P,ROY R.Digital communication with synchronized chaotic lasers[J].Opt Lett,1994,19(24):2056-2058.
[3]	TAKIGUCHI Y,FUJINO H,OHTSUBO J.Experimental synchronization of chaotic oscillations in external cavity semiconductor lasers in low-frequency fluctuation regime[J].Opt Lett,1999,24(22):1570-1572.
[4]	SIVAPRAKASAM S,SHORE K A.Message encoding and decoding using chaotic external-cavity diode lasers[J].IEEE J Q E,2000,36(1):35-39.
[5]	FISCHER I,LIU Y,DAVIS P.Synchronization of chaotic semiconductor laser dynamics on subnanosecond time scales and its potential for chaos communication[J].Phys Rev,2000,A62(1):011801.
[6]	TANG S,LIU J M.Effects of message encoding and de-coding on synchronized chaotic optical communications[J].IEEE J Q E,2003,39(11):1468-1475.
[7]	LI F,PAN W,LUO B,et al.Effect of cross talk on multichannel chaotic optical communication systems[J].Laser Technology,2008,32(4):445-448(in Chinese).
[8]	ARGYRIS A,SYVRIDIS D,LARGER L,et al.Chaos-based communications at high bit rates using commercial fiber-optic links[J].Nature,2005,438(17):343-346.
[9]	LEPRI S,GIACOMELLI G,POLITI A,et al.High-dimensional chaos in delayed dynamical systems[J].Physica,1994,D70(3):235-249.
[10]	ZHOU C,LAI C H.Extracting messages masked by chaotic signals of time-delay systems[J].Phys Rev,1999,E60(1):320-323.
[11]	LEE M W,LARGER L,UDALTSOV V S,et al.Demonstration of a chaos generator with two time delays[J].Opt Lett,2004,29(4):325-327.
[12]	MASOLLER C,MART'l A C.Random delays and the synchronization of chaotic maps[J].Phys Rev Lett,2005,94(13):134102.
[13]	SHAHVERDIEV E M,SHORE K A.Chaos synchronization regimes in multiple-time-delay semiconductor lasers[J].Phys Rev,2008,E77(5):057201.
[14]	KHE W H,CHOI M,KIM M W,et al.Synchronization of delayed systems in the presence of delay time modulation[J].Phys Lett,2004,A322(5/6):338-343.
[15]	LEE M W,REES P,SHORE K A,et al.Dynamical characterisation of laser diode subject to double optical feedback for chaotic optical communications[J].IEE Proc Optoelectronics,2005,152(2):97-102.
[16]	LIU Y,CHEN H F,LIU J M,et al.Synchronization of optical-feedback-induced chaos in semiconductor lasers by optical injection[J].Phys Rev,2001,A63(3):031802.
[17]	ROGISTER F,LOCQUET A.Secure communication scheme using chaotic laser diodes subject to incoherent optical feedback and incoherent optical injection[J].Opt Lett,2001,26(19):1486-1488.
[18]	HU J J,MA J S.Synchronization and communication of two mutual coupling lasers subject to incoherent injection[J].Journal of Modern Optics,2009,56(8):1029-1035.

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耦合半导体激光器的多调制延时混沌同步

作者简介: 胡菊菊(1979- ),女,讲师,博士研究生,主要从事混沌光通信方面的研究工作..

通讯作者: 马军山, junshanma@163.com ;

Chaos synchronization in coupled semiconductor lasers of multiple modulated time delays

Corresponding author: MA Jun-shan, junshanma@163.com ;

计量

耦合半导体激光器的多调制延时混沌同步

通讯作者: 马军山, junshanma@163.com;

作者简介: 胡菊菊(1979- ),女,讲师,博士研究生,主要从事混沌光通信方面的研究工作.

English Abstract

Chaos synchronization in coupled semiconductor lasers of multiple modulated time delays

Corresponding author: MA Jun-shan, junshanma@163.com

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留言板

耦合半导体激光器的多调制延时混沌同步

作者简介: 胡菊菊(1979- ),女,讲师,博士研究生,主要从事混沌光通信方面的研究工作..

通讯作者: 马军山, junshanma@163.com ;

Chaos synchronization in coupled semiconductor lasers of multiple modulated time delays

Corresponding author: MA Jun-shan, junshanma@163.com ;

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耦合半导体激光器的多调制延时混沌同步

通讯作者: 马军山, junshanma@163.com;

作者简介: 胡菊菊(1979- ),女,讲师,博士研究生,主要从事混沌光通信方面的研究工作.

English Abstract

Chaos synchronization in coupled semiconductor lasers of multiple modulated time delays

Corresponding author: MA Jun-shan, junshanma@163.com

全文HTML

目录