光子晶体光纤模式特征的研究
王智, 任国斌, 娄淑琴, 梁伟军, 简水生. 光子晶体光纤模式特征的研究[J]. 光学学报, 2004, 24(3): 324.
王智, 任国斌, 娄淑琴, 梁伟军, 简水生. The Mode Characteristics of the Photonic Crystal Fibers[J]. Acta Optica Sinica, 2004, 24(3): 324.
[1] Bjarklev A, Broeng J, Barkou S E et al.. Photonic crystal fiber modeling and applications. OFC ′2000, TuC1, 345~347
[2] Birks T A, Mogilevtsev D, Knight J C et al.. the analogy between photonic crystal fibres and step index fibres. OFC ′98, FG4, 114~116
[3] Birks T A, Knight J C, Russell P S J. Endlessly single-mode photonic crystal fiber. Opt. Lett., 1997, 22(8):961~963
[4] Monro T M, Richardson D J, Broderick N G R et al.. Holey optical fibers: An efficient modal model. J. Lightwave Technol., 1999, 17(5):1093~1102
[5] Monro T M, Richardson D J, Broderick N G R. Efficient modeling of holey fibers. OFC ′99, FG3, 111~113
[6] Monro T M, Richardson D J, Broderick N G R et al.. Modeling large air fraction holey optical fibers. J. Lightwave Technol., 2000, 18(1):50~56
[7] Barkou S E, Broeng J, Bjarklev A. Dispersion properties of photonic bandgap guiding fibers. OFC ′98, FG5, 117~119
[8] Koshiba M, Tsuji Y, Hikari M. Time-domain beam propagation method and its application to photonic crystal circuits. J. Lightwave Technol., 2000, 18(1):102~109
[9] Yonekura J, Ikeda M, Baba T. Analysis of finite 2-D photonic crystals of columns and lightwave devices using the scattering matrix method. J. Lightwave Technol., 1999, 17(7):1500~1508
[10] Birks T A, Mogilevtsev D, Knight J C et al.. Single material fibres for dispersion compensation. OFC ′99, FG2, 108~11011 Bjarklev A, Broeng J, Dridi K et al.. Dispersion properties of photonic crystal fibres. ECOC ′98, 135~136
[11] Ferrando A, Silvestre E, Andres P et al.. Designing the properties of dispersion-flattened photonic crystal fibers. Opt. Exp., 2001, 9(5):687~697
[12] Wang Zhi, Ren Guobin, Lou Shuqin et al.. Loss properties due to Rayleigh Scattering in different fibers. accepted by Opt. Exp.
[13] Ren Guobin, Wang Zhi, Lou Shuqin et al.. Investigation on Rayleigh Scattering in Ultra Low Loss Fibers. to be published by J. China Railway Society (铁道学报), (in Chinese)
[14] Ren Guobin, Wang Zhi, Lou Shuqin et al.. Study on Dispersion Properties of Photonic Crystal Fiber by Effective-index Model. to be published by Acta Optica Sinica (光学学报) (in Chinese)
[15] Wu Chongqing. Optical Waveguide Theory (光波导理论). Beijing: Tsinghua University Press, 2000, 42~48 (in Chinese)
[16] Chen Genxiang, Jian Shuisheng. Fundamental of Lightwave Technology (光波技术基础). Beijing: China Railway Press, 2000, 41 (in Chinese)
[17] Cregan R F, Knight J C, Russell P S J et al.. Spontaneous emission from an erbium doped photonic crystal fibre, CLEO ′99, 559
[18] Selleri S, Cucinotta A, Poli F et al.. Amplification properties of erbium doped photonic crystal fibers, ECOC ′2002, Symposium 1.8
王智, 任国斌, 娄淑琴, 梁伟军, 简水生. 光子晶体光纤模式特征的研究[J]. 光学学报, 2004, 24(3): 324. 王智, 任国斌, 娄淑琴, 梁伟军, 简水生. The Mode Characteristics of the Photonic Crystal Fibers[J]. Acta Optica Sinica, 2004, 24(3): 324.
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