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    Journals >Acta Optica Sinica >Volume 30 >Issue 4 >Page 959 > Article
    • Acta Optica Sinica
    • Vol. 30, Issue 4, 959 (2010)
    All-Optical Wavelength Conversion for Orthogonal Frequency Division Multiplexing Optical Signal
    Zhou Hui*, Dong Ze, Cao Zizheng, Lu Jia, He Jing, Chen Lin, and Yu Jianjun
    Author Affiliations
  • [in Chinese]
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    DOI: 10.3788/aos20103004.0959 Cite this Article Set citation alerts
    Zhou Hui, Dong Ze, Cao Zizheng, Lu Jia, He Jing, Chen Lin, Yu Jianjun. All-Optical Wavelength Conversion for Orthogonal Frequency Division Multiplexing Optical Signal[J]. Acta Optica Sinica, 2010, 30(4): 959 Copy Citation Text show less
    References

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    [2] S. J. B. Yoo. Wavelength conversion technologies for WDM network application [J]. J. Lightwave Technol.,1996,14(6):955-966

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    [4] Zhang Aixu,Yu Jinlong,Wang Yaotian et al.. Noninverted wavelength conversion for 40 Gb/s return-to-zero signal based on semiconductor optical amplifier and optical bandpass filter [J]. Acta Optica Sinica,2008,28(2):249-254

    [5] Wang Zinan,Xu Yongzhao,Zhang Xia et al.. Wavelength convertion based on cross-phase modulation in microstructure fibers [J]. Chinese J. Lasers,2008,35(3):414-417

    [6] J. Yu,Z. Jia,Y. K. Yeo et al.. Spectrally non-inverting wavelength conversion based on FWM in HNL-DSF and its application in label switching optical network [J]. In Proc. 25th ECOC,2005. 32-35

    [7] K. Inoue. Four-wave mixing in an optical fiber in the zero-dispersion wavelength region [J]. J. Lightwave Technol.,1992,10(11):1553-1561

    [8] P. R. L. Jonathan,A. S. Mark,S.J.Madden. Tunability of polarization-insensitive wavelength converters based on four-wave mixing in semiconductor optical amplifiers [J]. J. Lightwave Technol.,1998,16(12):2419-2427

    [9] Qing Wang,Howard Rideout,Fei Zeng et al.. Millimeter-wave frequency tripling based on four-wave mixing in a semiconductor optical amplifier[J]. J. Lightwave Technol.,2006,24(1):2460-2462

    [10] Jianhui Zhou,Namkyoo Park,Jay W. Dawson et al.. Efficiency of broadband four-wave mixing wavelength conversion using semiconductor traveling wave amplifiers[J]. IEEE Photonic. Technol. Lett.,1994,6(1):50-52

    [11] Andreas Wiberg,Pere Perez-Millan,Miguel V. Andres. Microwave-photonic frequency multiplication utilizing optical four-wave mixing and fiber Bragg gratings[J]. J. Lightwave Technol.,2006,24(1):329-334

    [12] R. Schnabel,U. Hilbk,Th. Hermes et al.. Polarization-insensitive frequency conversion of a 10-channel OFDM signal using four-wave mixing in a semiconductor laser amplifer [J]. IEEE Photonic. Technol. Lett.,1994,6(1):56-58

    [13] J. Ma,J. Yu,C. Yu et al.. Wavelength conversion based on four-wave mixing in high-nonlinear dispersion shifted fiber using a dual-pump configuration [J]. J. Lightwave Technol.,2006,24(7):2851-2858

    [14] R. M. Jopson,R. E. Tench. Polarization-independent phase conjugation of lightwave signals [J]. Electron. Lett.,1993,29(25):2216-2217

    [15] Li Zhaoxi,Hu Guijun,Kong Lingjie. Performance analysis of a multimode fiber communication system based on the adaptive modulation orthogonal frequency division multiplexing [J]. Chinese J. Lasers,2008,35(4):582-586

    [16] H. C. Bao,W. Shieh. Transmission of wavelength-division-multiplexing channels with coherent optical OFDM [J]. IEEE Photonic. Technol. Lett.,2007,19(12):922-924

    [17] I. B. Djordjevic,B. Vasic. Orthogonal frequency division multiplexing for high-speed optical transmission [J]. Opt. Express,2006,14(9):3767-3775

    [18] L. Chen,J. Yu,J. Lu et al.. A radio-over-fiber system with photonics generated OFDM signals and wavelength reuse for upstream data connection [C]. 2008,ICAIT,1-3A-1,Shenzhen,China

    [19] Chen Lin,Cao Zizheng,Dong Ze et al.. An experimental system of direct-detection optical OFDM transmission[J]. Chinese J. Lasers,2009,36(3):554-557

    CLP Journals

    [1] Lu Jia, Hu Yuanyuan, Liu Jianfei, Zeng Xiangye, Gao Junping. All-Optical Wavelength Conversion Based on Parallel Dual-Pump for Polarization Multiplexing OFDM Signal in SOA[J]. Chinese Journal of Lasers, 2015, 42(2): 205005

    [2] Lu Jia, Chang Haiyue, Wang Yang, Zeng Xiangye, Huang Xindi. Multichannel Transmission System Based on All-Optical Wavelength Conversion for Dual Single Sideband Discrete Multitone Signal[J]. Laser & Optoelectronics Progress, 2017, 54(10): 100603

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    [4] Chang Haiyue, Lu Jia, Wang Yang, Ma Jie. Influence of High Order Sideband Suppression Ratio on Performance of All-Optical Wavelength Conversion System[J]. Laser & Optoelectronics Progress, 2016, 53(10): 100605

    [5] Ma Jie, Lu Jia, Wu Pinghui, Liu Jianfei, Chang Haiyue, Wang Yang. Influence of Semiconductor Optical Amplifier Parameters on High Speed All-Optical Wavelength Conversion System[J]. Laser & Optoelectronics Progress, 2017, 54(3): 30606

    [6] Wang Shunyan, Jiang Yang, Wu Cinan, Wang Ju, Yu Jinlong, Zhou Zhuya, Xu Jing, Li Hengwen. Experimental Study on All-Optical Clock Recovery of All-Fiber Mode-Locking Cavity Configuration[J]. Chinese Journal of Lasers, 2012, 39(5): 505005

    [7] Zhang Yunbo, Zheng Jihong, Jiang Yanmeng, Hou Wenmei, Zhang Renjie, Zhuang Songlin. Near UV-Band Frequency Division Multiplexing Detecting Technique with Fluorescence Microscopy[J]. Acta Optica Sinica, 2011, 31(6): 618002

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    Zhou Hui, Dong Ze, Cao Zizheng, Lu Jia, He Jing, Chen Lin, Yu Jianjun. All-Optical Wavelength Conversion for Orthogonal Frequency Division Multiplexing Optical Signal[J]. Acta Optica Sinica, 2010, 30(4): 959
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