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一种基于RSOA的新型波长自适应远端结构 被引量:1

Proposal of A Flexible RSOA-based Colorless Remote Terminal in Bi-directional Single-fiber Transmission Systems
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摘要 提出一种基于反射型半导体光放大器(RSOA)的新型波长自适应远端结构,可用于单纤双向传输系统。首先介绍了该结构的原理,然后通过仿真分析,研究了基于此远端结构的传输系统的性能,分析了关键元件RSOA的重要参数对系统性能的影响,最后给出相应的取值参考。 Proposed in this paper is a novel flexible scheme of colorless remote terminal for the full-duplex single fiber transmission systems. Theoretical analysis and simulation are conducted to validate that proposal based system realizes transmission with baseband signal in downstream and OSSB/OCS signal in upstream. Detail investigation of the RSOA characteristic is also given out, with the main referenced parameters values of RSOA.
作者 卢炼 张民 武梦龙
机构地区 北京邮电大学信息光子学与光通信教育部重点实验室 北方工业大学
出处 《中国电子科学研究院学报》 2009年第4期364-367,共4页 Journal of China Academy of Electronics and Information Technology
基金 国家863计划项目(2009AA01z255 2007AA01Z243) 教育部新世纪优秀人才支持计划(NCET-06-0094) 北京市科技新星计划(2007A048) 高等学校学科创新引智计划资助(B07005) 长江学者和创新团队发展计划(IRT0609)
关键词 远端 反射型半导体光放大器(RSOA) 波长自适应 colorless remote terminal reflective semiconductor optical amplifier OSSB/OCS
分类号 TN929.11 [电子电信—通信与信息系统]
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参考文献10

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同被引文献13

  • 1Vasilyev M, Lakoba T I. All-optical muhichannel 2R re- generation in a fiber-based device [ J ]. Optics letters, 2005, 30(12) : 1458-1460.
  • 2Provost L, Parmigiani F, Petropoulos P, et al. Investiga- tion of Simultaneous 2R Regeneration of Two 40 Gb/s Channels in a Single Optical Fiber [ J ]. IEEE Photonics Technology Letters, 2008, 20(4) :270-272.
  • 3Wen F, Wu B J, Zhou X Y, et al. All-optical four-wave- length 2R regeneration based on data-pump four-wave- mixing with offset filtering[J]. Optical Fiber Technology, 2014, 20(3): 274-279.
  • 4Umeki T, Asobe M, Takara H, et al. Multi-span trans- mission using phase and amplitude regeneration in PPLN- based PSA [ J ]. Optics express, 2013, 21 ( 15 ) : 18170-18177.
  • 5Bogoni A, Wu X, Nuccio S, et al. 640Gb/s all-opticalregeneration in a PPLN waveguide [ C ]. America, IEEE Photonics Society, 2010 23rd Annual Meeting of the. IEEE, 2010: 205-206.
  • 6Porzi C, Bogoni A, Contestabile G. Regeneration of DPSK signals in a saturated SOA [ J ]. IEEE Photonics Technology Letters, 2012, 24(18): 1597-1599.
  • 7Wu W, Yu Y, Zou B, et al. Single SOA based simulta- neous amplitude regeneration for WDM-PDM RZ-PSK sig- nals[J]. Optics express, 2013, 21(6): 6718-6723.
  • 8Cao T, Chen L, Yu Y, et al. Experimental demonstration and devices optimization of NRZ-DPSK amplitude regen- eration scheme based on SOAs [ J]. Optics express, 2014, 22(26) : 32138-32149.
  • 9Dong J, Zhang X, Xu J, et al. 40 Gb/s both inverted and non-inverted wavelength conversion based on transi- ent XPM of SOA[ C]. America, National Fiber Optic En- gineers Conference. Optical Society of America, 2007 : JWA35.
  • 10Contestabile G, Proietti R, Calabretta N, et al. Resha- ping Capability of Cross-Gain Compression in Semicon- ductor Amplifiers [ J ]. IEEE Photonics Technology Let- ters, 2005, 17(12) :2523-2525.

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中国电子科学研究院学报
2009年 第4期

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