室温条件下掺铥光纤放大器中光波群速减慢的研究
[1] Gauthier D.Slow light brings faster communication[J].Phys.World,2005,18:30-32.
[2] Kobyakov A,Sauer M,Chowdhury D.Stimulated Brillouin scattering in optical fibers[J].Adv.Opt.Photon.,2010,2(1):1-59.
[3] Chang-Hasnain C J,Chuang S L.Slow and fast light in semiconductor quantum-well and quantum-dot devices[J].J.Lightwave Technol.,2006,24(12):4642-4654.
[4] Saynatjoki A,Mulot M,Ahopelto J,et al.Dispersion engineering of photonic crystal waveguides with ring-shaped holes[J].Opt.Express,2007,15(13):8323-8328.
[5] Hau L V,Harris S E,Dutton Z,et al.Light speed reduction to 17 metres per second in an ultracold atomic gas[J].Nature,1999,397(6720):594-598.
[6] Bigelow M S,Lepeshkin N N,Boyd R W.Observation of ultraslow light propagation in a ruby crystal at room temperature[J].Phys.Rev.Lett.,2003,90(11):113903-1-4.
[7] Schweinsberg A,Lepeshkin N N,Bigelow M S,et al.Observation of superluminal and slow light propagation in erbium-doped optical fiber[J].Europhys.Lett.,2006,73(2):218-224.
[8] Shin H,Schweinsberg A,Gehring G,et al.Reducing pulse distortion in fast-light pulse propagation through an erbium-doped fiber amplifier[J].Opt.Lett.,2007,32(8):906-908.
[9] Bencheikh K,Baldit E,Briaudeau S,et al.Slow light propagation in a ring erbium-doped fiber[J].Opt.Express,2010,18(25):25642-25648.
[10] Qian K,Zhan L,Zhu Z Q,et al.Group velocity manipulation in active fibers using mutually modulated cross-gain modulation: From ultraslow to superluminal propagation[J].Opt.Lett.,2011,36(12):2185-2187.
[11] Lauro R,Chaneliere T,Le Gouet J L.Slow light using spectral hole burning in a Tm3+-doped yttrium-aluminum-garnet crystal[J].Phys.Rev.A,2009,79(6):063844-1-6.
[12] Komukai T,Yamamoto T,Sugawa T,et al.Upconversion pumped thulium-doped flioride fider amplifier and laser operating at 1.47 μm[J].IEEE J.Quant.Electron.,1995,31(11):1880-1889.
邱巍, 高波, 林鹏, 王丽波, 李佳, 蒋秋莉. 室温条件下掺铥光纤放大器中光波群速减慢的研究[J]. 发光学报, 2015, 36(3): 328. QIU Wei, GAO Bo, LIN Peng, WANG Li-bo, LI Jia, JIANG Qiu-li. Slowdown of The Group Velocity in Tm3+-doped Optical Fiber[J]. Chinese Journal of Luminescence, 2015, 36(3): 328.