Birefringence study of photonic crystal fibers by using the full-vectorial finite element method

B.M.A. RAHMAN; A.K.M.S. KABIR; M. RAJARAJAN; K.T.V. GRATTAN; V. RAKOCEVIC

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Birefringence study of photonic crystal fibers by using the full-vectorial finite element method

机译：全矢量有限元法研究光子晶体光纤的双折射

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摘要

Modal solutions of photonic crystal fibers with equal and unequal circular air holes in a hexagonal matrix are presented, by using a rigorous full-vectorial finite element-based approach. The effective indices, mode field profiles, spot-sizes, modal hybridness, modal birefringence and group velocity dispersion values have been determined and presented. The effects of the pitch-distance, hole diameter, structural asymmetry, air hole arrangement and the operating wavelength on the modal birefringence are also reported. It is shown that a significant value of birefringence can be achieved by using only circular air holes, which would be easy to fabricate, and by operating it close to its modal cutoff.

机译：通过使用严格的基于全矢量有限元的方法，提出了六角形矩阵中具有相等和不相等的圆形气孔的光子晶体光纤的模态解决方案。有效指标，模式场轮廓，光点大小，模式混合度，模式双折射和群速度色散值已确定并提出。还报道了节距，孔径，结构不对称性，气孔排列和工作波长对模态双折射的影响。结果表明，仅使用圆形空气孔（很容易制造）并在接近其模态截止的地方进行操作，就可以实现双折射的显着值。

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来源
《Applied physics. B, Lasers and optics》 |2006年第2期|p.75-82|共8页
作者
B.M.A. RAHMAN; A.K.M.S. KABIR; M. RAJARAJAN; K.T.V. GRATTAN; V. RAKOCEVIC;
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作者单位

School of Engineering and Mathematical Sciences, City University, Northampton Square, London EC1V 0HB, UK;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类光学;
关键词
fiber waveguides; couplers; and arrays; birefringence; polarization; wave propagation; transmission and absorption; variational techniques;

机译：光纤波导耦合器和数组;双折射;极化;波传播;传输和吸收;变异技术;

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1. Performance Improvement in Birefringence of Photonic Crystal Fiber Using Full-Vectorial Finite Element Method [J] . Rajeswari D, Revathi A. Arunya Journal of computational and theoretical nanoscience . 2018,第5期

机译：使用全横向轴有限元法的光子晶体纤维双折射性能改进
2. Full-vectorial imaginary-distance beam propagation method based ona finite element scheme: application to photonic crystal fibers [J] . Saitoh K., Koshiba M. IEEE Journal of Quantum Electronics . 2002,第7期

机译：基于有限元方案的全矢量虚距光束传播方法：在光子晶体光纤中的应用
3. Characterization of single-polarization single-mode photonic crystal fiber using full-vectorial finite element method [J] . N. Kejalakshmy, B.M.A. Rahman, A. Agrawal, Applied physics . 2008,第1期

机译：全矢量有限元法表征单偏振单模光子晶体光纤
4. Full-vectorial Solutions of Photonic Crystal Fibers by using the Finite Element Method [C] . Rahman, B.M.A., Kejalakshmy, Power Quality and Supply Reliability Conference, 2008 . 2007

机译：有限元方法的光子晶体光纤全矢量解
5. Finite-difference full-vectorial beam propagation method development and microlens design for fiber to laser diode coupling. [D] . He, Yongzhi. 2005

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6. Hydrostatic Pressure Sensing with High Birefringence Photonic Crystal Fibers [O] . Fernando C. Fávero, Sully M. M. Quintero, Cicero Martelli, 2010

机译：高双折射光子晶体光纤的静水压力传感
7. Generalized finite-difference time-domain method utilizing auxiliary differential equations for the full-vectorial analysis of photonic crystal fibers [O] . Hu JJ, Shum P, Lu C, 2007

机译：利用辅助微分方程的广义有限差分时域方法进行光子晶体光纤的全矢量分析

Birefringence study of photonic crystal fibers by using the full-vectorial finite element method

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