Optimal Design of Multiwave Pumped Fiber Raman Amplifier with Simplified Model

[in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]

[1] Namiki S, Emori Y. Recent advances in ultra-wideband Raman amplifiers. in Proc. OFC 2000, Baltimore, MD, 2000, FF1. 98～99

[2] Masuda H. Review of wideband hybrid amplifiers. in Proc. OFC 2000, Baltimore, MD, 2000, TuA1. 2～4

[3] Wang S, Fan C. Generalised attenuation coefficients and a novel simulation model for Raman fibre amplifiers. IEE Pro. Optoelectron., 2001, 148(3):156～159

[4] Zhou Xiang, Chao Lu, Ping Shum et al.. A simplified model and optimal design of a mutliwavelength backward-pumped fiber Raman amplifier. IEEE Photon. Technol. Lett., 2001, 13(9):945～947

[5] Yan Minhui, Chen Jianping, Jiong Wenning et al.. Automatic design scheme for optical-fiber Raman amplifier backward-pumped with multiple laser diode pumps. IEEE Photon. Technol. Lett., 2001, 13(9):948～950

[6] Howard Kidorf, Karsten Rottwitt, Morten Nissov et al.. Pump interactions in a 100-nm bandwidth Raman amplifier. IEEE Photon. Technol. Lett., 1999, 11(5):530～532

[7] Shu Namiki, Yoshihiro Emori. Ultrabroad-band Raman amplifiers pumped and gain-equalized by wavelength-division-multiplexed high-power laser diodes. IEEE J. Selected Topics in Quant. Electron., 2001, 7(1):3～16

[8] Perlin V E, Herbert G. Optimal design of flat-gain wide-band fiber Raman amplifiers. J. Lightwave Technol., 2002, 20(2):250～254

[9] Chen Jian, Zhang Wei, Liu Xiaoming et al.. Design gain characteristic of dual-pump fiber Raman amplifier. APOC Beijing 2001. 216～221

CLP Journals