交叉相位调制提高半导体激光器混沌载波发射机带宽方法

颜森林

doi:10.7498/aps.59.3810

摘要

提出半导体激光器混沌交叉相位调制（XPM）光反馈提高混沌载波发射机带宽方法，建立了有外腔光纤传输反馈XPM控制下的激光动力学物理模型.理论导出XPM作用下激光双反馈频率失谐公式，指出XPM产生的非线性相移影响了激光器增益和线宽增强因子，其光纤二阶非线性效应使激光振幅和相位变化更加丰富，而非线性相移的出现进一步增加了新的频率分量并使频谱展宽.数值结果表明，XPM使激光器混沌带宽增加到4倍以上，使激光混沌张弛振荡频率增加到285倍，其光纤长度、入纤光功率、面镜反射系数、光纤二阶非线性系数等都能影响激光混沌带

关键词:

Abstract

A novel method of bandwidth enhancement of a chaotic carrier from a semiconductor laser transmitter is studied by cross-phase modulation (XPM). And a physical model of laser dynamics is presented under the condition of XPM effect of optical fiber path. A frequency detuning formula with optical dual-feedback and XPM effect is deduced. The nonlinear phase shift arisen from XPM effect impacts on the gain and bandwidth enhancement factor of the laser. The second order nonlinear effect of the fiber enriches the varieties in the amplitude and the phase of the laser while the nonlinear phase shift produces a lot of new frequencies, which spread the bandwidth. Numerical results reveal that, with XPM effect, the new bandwidth is the quadruple of the bandwidth without XPM effect, and the relaxation oscillation frequency of the chaotic laser is increased to 285 times that of the laser without XPM effect. It is found that the enhancement of the chaotic bandwidth depends evidently on the optical fiber length, the power input into the optical fiber, the mirror reflectance and the second order nonlinear coefficient.

Keywords:

作者及机构信息

颜森林

1.
南京晓庄学院物理与电子工程系，南京 210017

基金项目: 江苏省高等学校自然科学基础研究计划（批准号： 08KJ510019）资助的课题.

Authors and contacts

Yan Sen-Lin

1.
南京晓庄学院物理与电子工程系，南京 210017

参考文献

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[9]	［9］Yan S L 2008 Acta Phys. Sin. 57 2819 (in Chinese) ［颜森林 2008 物理学报 57 2819］
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[20]	］Liu X M, Wang T, Shu C, Wang L R, Lin A, Lu K Q, Zhang T Y, Zhao W 2008 Laser Phys. 18 1357
[21]	］Agrawal G P 1989 Nonlinear Fiber Optics (San Diego: Academic)

施引文献

[1]	［1］Roy R, Thornburg K S 1994 Phys. Rev. Lett. 72 2009
[2]	［2］Van Wiggeren G D, Roy R 1998 Science 279 1198
[3]	［3］Wu L, Zhu S Q 2003 Phys. Lett. A 308 157
[4]	［4］Yan S L 2007 Chin. Phys. B 16 3271
[5]	［5］Ramos R V, Souza R F 2001 Opt. Cummun. 22 90
[6]	［6］Zhou Y, Wu L, Zhu S Q 2005 Chin. Phys. B 14 2196
[7]	［7］Zhang F, Chu P L 2003 J. Lightwave Technol. 21 3334
[8]	［8］Li X F, Pan W, Ma D, Luo B, Zhang W L, Xiong Y 2006 Acta Phys. Sin. 55 5094 (in Chinese) ［李孝峰、潘炜、马冬、罗斌、张伟利、熊悦 2006 物理学报 55 5094］
[9]	［9］Yan S L 2008 Acta Phys. Sin. 57 2819 (in Chinese) ［颜森林 2008 物理学报 57 2819］
[10]	］Wu J G, Wu Z M, Lin X D, Zhang Y, Zhong D Z, Xia G Q 2005 Acta Phys. Sin. 54 4169 (in Chinese) ［吴加贵、吴正茂、林晓东、张毅、钟东洲、夏光琼 2005 物理学报 54 4169］
[11]	］Argyris A, Syvridis D, Larger L, Lodi V A, Colet P, Fischer I, Ojalvo J G, Mirasso C R, Pesquera L, Shore K A 2005 Nature 438 343
[12]	］Lodi V A, Benedetti M, Merlo S, Norgia M, Provinzano B 2005 2 IEEE Photon. Technol. Lett. 17 1995
[13]	］Kusumoto K, Ohtsubo J 2002 Opt. Lett. 27 989
[14]	］Paul J, Lee M W, Shore K A 2005 IEEE Photon. Technol. Lett. 17 920
[15]	］Takiguchi Y, Ohyagi K, Ohtsubo J 2003 Opt. Lett. 28 319
[16]	］Murakami A, Shore K A 2005 Phys. Rev. A 72 053810
[17]	］Wang Y C, Zhang G W, Wang A B, Wang B J, Li Y L, Guo P 2007 Acta Phys. Sin. 56 4372 (in Chinese) ［王云才、张耕玮、王安帮、王冰洁、李艳丽、郭萍 2007 物理学报 56 4372］
[18]	］Kong L Q, Wang A B, Wang H H, Wang Y C 2007 Acta Phys. Sin. 57 2266 (in Chinese) ［孔令琴、王安帮、王海红、王云才 2007 物理学报 57 2266］
[19]	］Liu X M, Yang X, Lu F, Ng J, Zhou X, Lu C 2005 Opt. Express 13 142
[20]	］Liu X M, Wang T, Shu C, Wang L R, Lin A, Lu K Q, Zhang T Y, Zhao W 2008 Laser Phys. 18 1357
[21]	］Agrawal G P 1989 Nonlinear Fiber Optics (San Diego: Academic)

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