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Equilateral pentagon polarization maintaining photonic crystal fibre with low nonlinearity

Equilateral pentagon polarization maintaining photonic crystal fibre with low nonlinearity
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摘要 A new pentagon polarization maintaining photonic crystal fibre with low nonlinearity is introduced. The full vector finite element method was used to investigate the distribution and the effective area of modal field, the nonlinear properties, the effective indices of two orthogonal polarization modes and the birefringence of the new PM-PCF effectively. It is found that the birefringence of the new polarization maintaining photonic crystal fibre can easily achieve the order of 10-4, and it can obtain higher birefringence, larger effectively mode-field area and lower nonlinearity than traditional hexagonal polarization maintaining photonic crystal fibre with the same hole pitch, same hole diameter, and same ring number. It is important for sensing and communication applications, especially has potential application for fibre optical gyroscope. A new pentagon polarization maintaining photonic crystal fibre with low nonlinearity is introduced. The full vector finite element method was used to investigate the distribution and the effective area of modal field, the nonlinear properties, the effective indices of two orthogonal polarization modes and the birefringence of the new PM-PCF effectively. It is found that the birefringence of the new polarization maintaining photonic crystal fibre can easily achieve the order of 10-4, and it can obtain higher birefringence, larger effectively mode-field area and lower nonlinearity than traditional hexagonal polarization maintaining photonic crystal fibre with the same hole pitch, same hole diameter, and same ring number. It is important for sensing and communication applications, especially has potential application for fibre optical gyroscope.
作者 Yang Han-Rui Li Xu-You Hong Wei Hao Jin-Hui 杨汉瑞;李绪友;洪伟;郝金会(Automation College,Harbin Engineering University,Harbin 150001,China)
机构地区 Automation College
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2012年第2期357-361,共5页 中国物理B(英文版)
基金 supported by the Specific Scientific and Technological Cooperation between China and Russia (Grant No.2010DFR80140)
关键词 photonic crystal fibres fibre optical gyroscope BIREFRINGENCE NONLINEARITY photonic crystal fibres, fibre optical gyroscope, birefringence, nonlinearity
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参考文献18

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