Optimized Design of Fiber Raman Amplifiers

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

[1] Mollennauer L F, Stolen R H, Islam M N. Experimental demonstration of soliton propagation in long fibers: Loss compensated by Raman gain. Opt. Lett., 1985, 10(5):229～231

[2] Hansen P B, Eskildsen L, Grubb S G et al.. Capacity upgrades of transmission systems by Raman amplification. IEEE Photon. Technol. Lett., 1997, 9(2):262～264

[3] Kani J, Jinno M, Oguchi K. Fibre Raman amplifier for 1520 nm band WDM transmission. Electron. Lett., 1998, 34(18):1745～1747

[5] Lewis S A E, Chernikov S V, Taylor J R. Ultra-broad-bandwidth spectral continuum generation in fiber Raman amplifier. Electron. Lett., 1998, 34(23):2267～2268

[6] Emo Y, Tanaka K, Namiki S. 100 nm bandwidth flat-gain Raman amplifiers pumped and gain-equalized by 12-wavelength-channel WDM laser diode unit. Electron. Lett., 1999, 35(16):1355～1356

[7] Lewis S A E, Chernikov S V, Taylor J R. Triple wavelength pumped silica-fiber Raman amplifiers with 114 nm bandwidth. Eelectron. Lett., 1999, 35(16):1761～1762

[8] Kawai S, Masuda H, Suzuki K I et al.. Ultra-wide, 75 nm 3 dB gain-band optical amplifier utilizing gain-flattened erbium-doped fluoride fiber amplifier and discrete Raman amplification. Electron. Lett., 1998, 34(9):897～898

[9] Masuda H, Kawai S, Aida K. Ultra-wideband hybrid amplifier comprising distributed Raman amplifier and erbium-doped fibre amplifier. Electron. Lett., 1998, 34(13):1342～1344

[10] Masuda H, Kawai S. Wide-band and gain-flattened hybrid fiber amplifier consisting of an EDFA and a multiwavelength pumped Raman amplifier. IEEE Photon. Technol. Lett., 1999, 11(7):647～649

[11] Kani J, Jinno M. Wideband and flat-gain optical amplification from 1460 to 1510 nm by serial combination of a thulium-doped fluoride fibre amplifier and fibre Raman amplifier. Electron. Lett., 1999, 35(12):1004～1006

[12] Dianov E M, Grekov M V, Bufetov I A et al.. Highly efficient 1.3 μm Raman fiber amplifier. Electron. Lett., 1998, 34(7):669～670

[13] Guy M J, Chernikov S V, Taylor J R. Lossless transmission of 2 ps pulse over 45 km of strand fiber at 1.3 μm using distributed Raman amplification. Electron. Lett., 1998, 34(8):793～794

[14] Kawai S, Masuda H, Suzuki K I et al.. Wide-bandwidth and long-distance WDM transmission using highly gain-flattened hybrid amplifier. IEEE Photon. Lett., 1999, 11(7):886～888

[15] Suzuki H, Takachio N, Masuda H et al.. 50 GHz spaced, 3210 Gbit/s dense WDM transmission in zero-dispersion region over 640 km of dispersion-shifted fiber with multiwavelength distributed Raman amplification. Electron. Lett., 1999, 35(14):1175～1176

[16] Lewis S A E, Chernikov S V, Taylor J R. Gain and saturation characteristics of dral-wavelength-pumped silica-fiber Raman amplifiers. Electron. Lett., 1999, 5(14):1178～1179

[17] Nissov M, Rottwitt K, Kidorf H D et al.. Rayleigh crosstalk in long cascades of distributed unsaturated Raman amplifiers. Electron. Lett., 1999, 35(12):997～998

[19] Dianov E M, Abramov A A, Bubnov M M et al.. 30 dB gain Raman amplifier at 1.3 μm in low loss high GeO2-doped silica fibres. Electron. Lett., 1995, 31(13):1057～1058

CLP Journals