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基于QD-SOA的波长转换特性的消光比研究 被引量:6

Theoretical Study on Extinction Ratio of Wavelength-Converted Optical Signals based on QD-SOA-XGM
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摘要 在量子点半导体光放大器(QD-SOA)的静态模型基础上,建立了动态模型。讨论了基于QD-SOA的交叉增益调制(XGM)的波长转换特性原理。采用细化分段方法及四阶龙格-库塔法求解速率方程及光场传输方程,给出了变换前后的波形对照。通过改变QD-SOA的自身及外部参数,讨论了输出探测光消光比的影响因素,结果表明增大泵浦光功率、减小探测光功率、增大注入电流及有源区长度都可以增大消光比,从而能够增强信号的抗干扰能力。 Based on the static model of quantum-dot semiconductor optical amplifiers(QD-SOA), the dynamic model is established. The characteristics of wavelength converters based on cross-gain modulation (XGM) of QD-SOA are discussed. The rate equations and light field transfer equations are solved by utilizing the refined sectionalized method and the Runge-Kutta method. This paper also gives the waveform contrast of between before and after the conversion. The extinction ratio of output waveform for detecting light is discussed by changing the inherent parameters and the external ones. The experiment results show that by raising the pump optical power, reducing the detection optical power, and increasing the injection current and active-region length, the extinction ratio and the anti-interference ability of the signal could be improved.
作者 史尚尚 王海龙 孙丽芹 龚谦 封松林
机构地区 曲阜师范大学物理工程学院 中科院上海微系统与信息技术研究所信息功能材料国家重点实验室
出处 《通信技术》 2013年第9期107-110,共4页 Communications Technology
基金 国家自然科学基金(批准号:60976015 61176065) 山东省自然科学基金(批准号:ZR2010FM023) 信息功能材料国家重点实验开放课题资助
关键词 细化分段方法 量子点半导体光放大器 交叉增益调制 波长转换 消光比 refined sectionalizing method" QD-SOA" XGM wavelength converter extinction Ratio
分类号 TN929.1 [电子电信—通信与信息系统]
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参考文献11

  • 1LEE J H, SOHNM, KIM K, et al. Wavelength Dependent Performance of a Wavelength Converter based on Cross-gain Modulation and Birefringence of a Semiconductor Optical Amplifier [J].IEEE Photoni cs Technology Letters, 1999,11(02):185-187.
  • 2DANIELSEN S L, HANSEN P B, STUBKJAER K E, et al. All Optical Wavelength Conversion Schemes for Increased Input Power Dynamic Range[J]. IEEE Photonics Technology Letters, 1998,10(01):60-62.
  • 3巴欣然,阴亚芳.WCDMA网络无线侧速率的研究[J].通信技术,2012,45(1):46-48. 被引量:1
  • 4LIU Y, TANGDIONGGA E, LI Z, et al. Error-Free 320-Gb/s All-Optical Wavelength Conversion Using a Single Semiconductor Optical Amplifier[J].Lightwave NUZMAN C, Implementa Nodes [J]. 21 (03) :648 Technology, 2007, 25 (01) : 103-108.
  • 5LEUTHOLD J, RYF R, et al. Design and tion of Wavelength Journal of Lightwave -663. flexible Network Technology, 2003,.
  • 6徐天翔,陈立功,毛晶磊,努尔买买提,杨惠姣,刘永.基于半导体光放大器的超快全光波长转换[J].激光杂志,2011,32(6):10-12. 被引量:2
  • 7NIELSEN L M, MORE J, SUZUKI R, et al. Experimental and Theoretical Investigation of the Impact of Ultra-fast Carrier Dynamics on High-speed SOA-based All-optical Switches[J]. Optics Express 2006,14(01):331-347.
  • 8CLEARY S C, POWER J M, SCHNEIDER S, et al. Fast Gain Recovery Rates with Strong Wave-length Dependence in a Non-linear SOA[J]. Optics Express, 2010,18(25) 25726-25737.
  • 9HATTA T, MIYAHARA T, YASUNORI M, et al. Polarization-Insensitive Monolithic 40-Gbps SOA-MZI Wavelength Converter with Narrow Active WaveguidesEJ]. Selected Topics in Quantum Electronics, IEEE Journal, 2007,13(01):32-39.
  • 10李鹰,陈岩.高速光传送网的发展及应用研究[J].通信技术,2013,46(6):75-77. 被引量:4

二级参考文献28

  • 1李香平,张智江,张范,顾旻霞.面向3G业务的终端软件运行与下载平台[J].电信技术,2006(8):109-110. 被引量:3
  • 2Talli G, Adams M J. Gain dynamics of semiconductor optical amplifiers and three - wavelength devices [ J ]. IEEE Quantum Electronics, 2003, 39(10) : 1305 - 1313.
  • 3Matsumoto A, Nishimura K, et al. Operational design on high-speed semiconductor optical amplifier with assist light for application to wavelength converters using cross - phase modulation [ J]. IEEE Quantum Electronics, 2006, 42(3) : 313 - 323.
  • 4Wu Z, Huang Y, et al. Novel scheme to increase the operation speed of a SOA for all - optical wavelength conversion [ C ]. Proc of SPIE. Wuhan, China, 2007,6782:67822A1 - 9.
  • 5Dupertuis M A, Pleumeekers J L, et al. Extremely fast high - gain and low - current SOA by optical speed - up at transparency[J]. IEEE Photonics Technology letters, 2000, 12( 11 ): 1453 - 1455.
  • 6Pleumeekers J L, Kauer M, et al. Aeceleration of gain recovery in semiconductor optical amplifiers by optical injection near transparency wavelength[J].IEEE Photonics Technology letters,2002,14( 1 ) : 12 - 14.
  • 7Ellis, A. D., et al. Error free 100Gbit/s wavelength conversion using grating assisted cross - gain modulation in 2mm long semiconductor amplifier[J]. Electronics Letters, 1998, 34(Compendex): 1958- 1959.
  • 8Runge. P., C. A. Bunge, et al. All - Optical Wavelength Conversion With Extinction Ratio Improvement of 100 Gb/s RZ - Signals in Uhralong Bulk Semiconductor Optical Amplifiers [ J ]. IEEE Quantum Electronics, 2010,46( 6 ) : 937 - 944.
  • 9Hsiao- Yun Y, Mahgerefteh D, et al. Optimization of the frequencyresponse of a semiconductor optical amplifier wavdength converter using a fiber Bragg grating[J].Lightwave Technology, 1999, 17(2) : 308 - 315.
  • 10Nakamura S, Ueno Y, et al. 168 - Gb/s all - optical wavelength conversion with a symmetric -Mach - Zehnder- type switch [ J]. IEEE Photonics Technology Letters, 2001, 13 (10) : 1091 - 1093.

共引文献4

同被引文献28

  • 1董建绩,张新亮,王颖,刘德明,黄德修.基于单端SOA波长转换器的消光比特性分析[J].激光技术,2005,29(1):14-17. 被引量:8
  • 2李培丽,黄德修,张新亮,朱光喜.基于多电极单端耦合半导体光放大器的交叉增益调制型波长转换器[J].物理学报,2006,55(6):2746-2750. 被引量:3
  • 3GUO Q, TRAN A V. Performance Enhancement inRSOA — Based WDM Passive Optical Networks UsingLevel Coding [ J ]. Lightwave Technology, 2013,31(01 ) :67-73.
  • 4JIN X Q,GROENEWALI) J,ilUGUES-SALAS E, etal. Upstream Power Budgets of IMDD Optical OFDMAPONs Incorporating RSOA Intensity Modulator - BasedColorless ONUs [ J ]. Lightwave Technology, 2013, 31(12):1914-1920.
  • 5JIN X Q, TANG J M. Experimental Investigations ofWavelength Spacing and Colorlessness of RSOA - BasedONUs in Real-Time Optical OFDMA PONs[ J]. Light-wave Technology, 2012,30( 16) : 2603-2608.
  • 6CONNELLY M J. Wideband Semicomluclor Optical Am-plifier Steady-State Numerical Model [ J ]. IEEE Journalof Quantum Electronics,2001,37(03) :439-447.
  • 7Guo Q, TRAN A V. Performance Enhancement in RSOA-Based WDM Passive Optical Networks Using Level Coding [J]. Lightwave Technology, 2013, 31(01):67-73.
  • 8JINX Q, GROENEWALD J, HUGUES-SALAS E, etal. Upstream Power Budgts of IMDD Optical PONs Incorporating RSOA Intensity Modulator -Based Colorlessness ONUs [J]. Lightwave Technology, 20!3, 31(12): 1914-!920.
  • 9Contestabile, G.,Maruta, A.,Sekiguchi, S. et al. All-Optical Wavelength Multicasting in a QD- SOA[J].IEEE Journal of Quantum Electronics: A Publication of the IEEE Quantum Electronics and Applications Society,2011,47(4):541-547.
  • 10Kotb, A..NOR gate based on QD-SOA at 250 Gbit/s[J].Optical and Quantum Electronics, 2013,45(6):473-480.

引证文献6

二级引证文献16

通信技术
2013年 第9期

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