Suppression of Nonlinear Patterning Effect in Wavelength Conversion Based on Transient Cross-Phase Modulation in Semiconductor Optical Amplifier Assisted with a Detuning Filter 被引量：1

Suppression of Nonlinear Patterning Effect in Wavelength Conversion Based on Transient Cross-Phase Modulation in Semiconductor Optical Amplifier Assisted with a Detuning Filter

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摘要 Nonlinear patterning （NLP） effect in wavelength conversion based on transient cross-phase modulation （XPM） in semiconductor optical amplifier （SOA） assisted with a detuning filter is theoretically investigated. A non- adiabatic model is used to estimate the ultrafast dynamics of gain, phase and electron temperature in the SOA. Simulation results show that the NLP can be greatly suppressed by introducing an assist light, especially for the probe wavelength distant from gain peak. Furthermore, the results also indicate that the improvement is more evident for long wavelength probe light and assist light in counter-propagating configuration. Nonlinear patterning （NLP） effect in wavelength conversion based on transient cross-phase modulation （XPM） in semiconductor optical amplifier （SOA） assisted with a detuning filter is theoretically investigated. A non- adiabatic model is used to estimate the ultrafast dynamics of gain, phase and electron temperature in the SOA. Simulation results show that the NLP can be greatly suppressed by introducing an assist light, especially for the probe wavelength distant from gain peak. Furthermore, the results also indicate that the improvement is more evident for long wavelength probe light and assist light in counter-propagating configuration.

作者周恩波张新亮余宇黄德修

机构地区 Wuhan National Laboratory for Optoelectronics

出处《Chinese Physics Letters》 SCIE CAS CSCD 2009年第3期136-139,共4页 中国物理快报（英文版）

基金 Supported by the National High Technology Research and Development Programme of China under Grant No 2006AA03Z0414, the National Natural Science Foundation of China under Grant Nos 60877056 and 60707005.

分类号 O472.3 [理学—半导体物理] TN25 [理学—物理]

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参考文献13

1Nielsen M L and Mφrk J 2004 J. Opt. Sac. Am. B 21 1606 被引量：1
2Tangdiongga E, Liu Y, Waavdt H d, Khoe G D, Koonen A M J, and Dorren H J S 2007 Opt. Lett, 32 835 被引量：1
3Fu S, Dong J, Shum P, Zhang L, Zhang X and Huang D 2006 Opt. Express 14 7587 被引量：1
4Nielsen M L, Mφrk J, Suzuki R, Sakaguchi J and Ueno Y 2006 Opt. Express 14 331 被引量：1
5J. Dong, X. Zhang, S. Fu, P. Shum and Huang D 2007 Acta Phys. Sin. 56 2250 被引量：1
6Mecozzi A and Mφrk J 1997 J. Opt. Soc. Am. B 14 761 被引量：1
7Jin W, Marculescu A, Jingshi L, Vorreau P, Tzadok S,Ezra B S, Tsadka S, Freude W and Leuthold J 2007 IEEE Photon. Technol. Lett. 19 1955 被引量：1
8Vazquez J M, Li Z, Liu Y, Tangdiongga E, Zhang S, Lenstra D, Khoe G D, and Dorren H J S 2007 IEEE J. Quantum Electron. 43 57 被引量：1
9Chuang S L 1995 Physics of Optoelectronic Devices (New York: Wiley) 被引量：1
10Gomatam B N and DeFonzo A P 1990 IEEE J. Quantum Electron. 26 1689 被引量：1

同被引文献24

1Dutta N K,Wang Q.Semiconductor Optical Amplifiers[M].Singapore:World Scientific Pub.Co.Inc.,2006. 被引量：1
2Spiekman L H.Semiconductor optical amplifiers for recon-figurable optical networks(invited)[J].Journal of Optical Networking,2007,6(11):1247-1256. 被引量：1
3Liu Y,Tangdiongga E,Li Z,et al.Error-free320-Gb/s all-optical wavelength conversion using a single semiconductor optical amplifier[J].Journal of Lightwave Technology,2007,25(1):103-108. 被引量：1
4Zhou E,Yu X,Zhang X,et al.Photonic generation of ul-trawideband monocycle and doublet pulses by using a semiconductor-optical-amplifier-based wavelength converter[J].Optics Letters,2009,34(9):1336-1338. 被引量：1
5Antón M A,Carreno F,CalderónóG,et al.Phase-con-trolled slow and fast light in current-modulated semicon-ductor optical amplifiers[J].Journal of Physics B:Atomic,Molecular and Optical Physics,2009,42(9):1-8. 被引量：1
6Giller R,Manning R J,Cotter D.Gain and phase recovery of optically excited semiconductor optical amplifiers[J].IEEE Photonics Technology Letters,2006,18(9):1061-1063. 被引量：1
7Dailey J M,Koch T L.Impact of carrier heating on SOA transmission dynamics for wavelength conversion[J].IEEE Photonics Technology Letters,2007,19(14):1078-1080. 被引量：1
8Dorren H,Lenstra D,Liu Y,et al.Nonlinear polarization ro-tation in semiconductor optical amplifiers:Theory and ap-plication to all-optical flip-flop memories[J].IEEE Journal Quantum Electronics,2003,39(1):141-148. 被引量：1
9Liu Y,Hill M,Tangdiongga E,et al.Wavelength conver-sion using nonlinear polarization rotation in a single semi-conductor optical amplifie[rJ].IEEE Photonics Technology Letters,2003,15(1):90-92. 被引量：1
10Park J,Li X,Huang W P.Performance simulation and de-sign optimization of gain-clamped semiconductor optical amplifiers based on distributed bragg reflectors[J].IEEE Journal Quantum Electronics,2003,39(11):1415-1423. 被引量：1

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1陈建肖.A High Efficiency Wavelength Conversion Scheme Based on Four Wave Minxing in a Semiconductor Optical Amplifier[J].High Technology Letters,2000,6(3):6-8.
2周亚东,吉红峰.视频切换台的非线性模式发展趋势[J].电视工程,2015,0(4):13-15.
3周亚东,吉红峰.视频切换台的非线性模式发展趋势[J].世界广播电视,2015,29(12):101-103. 被引量：1
4孙侃,刘继芳,孙艳玲.激光触发GaAs光电导开关非线性现象的实验研究[J].电子科技,2009,22(3):83-86.
5谢泗淮.逐次升维的共轭方向法[J].西南交通大学学报,1992,27(4):8-12.
6Jun Endo,Akira Ohki,Rieko Sato,Toshio Ito,Yuichi Tohmori,Yasuhiro Suzuki.Low Power Penalty Operation of a Wide Input Dynamic Range Cross-Phase Modulation Wavelength Converter[J].光学学报,2003,23(S1):353-354.
7戴慧莹,向珊,施卫.光电导开关非线性模式下光电延迟现象分析[J].半导体光电,2010,31(5):713-715.
8左光纪.求解线性规划的快速换基迭代法[J].运筹与管理,2000,9(4):9-15. 被引量：5
9廖湘民.线性规划的单位矩阵算法[J].甘肃工业大学学报,1994,20(2):104-107.
10夏少刚,张振刚.关于变量有上限的线性规划问题的一种解法[J].运筹学学报,1989(2):73-74. 被引量：1

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Suppression of Nonlinear Patterning Effect in Wavelength Conversion Based on Transient Cross-Phase Modulation in Semiconductor Optical Amplifier Assisted with a Detuning Filter 被引量：1

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