Full vectorial simulation for characterizing loss or gain in optical devices with an accurate and automated finite-element program

Tzolov VP; Fontaine M; Sewell G; Delage A; NATL RES COUNCIL CANADA INST MICROSTRUCT SCI OTTAWA ON K1A 0R6 CANADA.

首页> 外文期刊>Applied optics >Full vectorial simulation for characterizing loss or gain in optical devices with an accurate and automated finite-element program

【24h】

Full vectorial simulation for characterizing loss or gain in optical devices with an accurate and automated finite-element program

机译：完整的矢量仿真，可通过精确的自动化有限元程序表征光学器件的损耗或增益

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

An efficient, accurate, and automated vectorial finite-element method is described to characterize arbitrarily shaped optical devices having loss or gain properties. The method can be easily implemented inside the PDE2D software environment, where an interactive session allows the user to specify the problem in a easy-to-use format. For the method to be validated, modal dispersion characteristics of high loss metal-coated optical fibers that have recently been used in applications in scanning near-field optical microscopy are presented and compared with results obtained with two vectorial approaches, i.e., the field expansion and the multiple-multipole methods. These results clearly illustrate the flexibility, accuracy, and ease of implementation of the method. (C) 1997 Optical Society of America.

机译：描述了一种有效，准确和自动化的矢量有限元方法，以表征具有损耗或增益特性的任意形状的光学设备。该方法可以在PDE2D软件环境中轻松实现，在该环境中，交互式会话允许用户以易于使用的格式指定问题。对于待验证的方法，介绍了最近在扫描近场光学显微镜中的应用中使用的高损耗金属包覆光纤的模态色散特性，并将其与两种矢量方法（即场扩展和光散射）获得的结果进行了比较。多-多极方法。这些结果清楚地说明了该方法的灵活性，准确性和简便性。（C）1997年美国眼镜学会。

著录项

来源
《Applied optics》 |1997年第3期|共7页
作者
Tzolov VP; Fontaine M; Sewell G; Delage A; NATL RES COUNCIL CANADA INST MICROSTRUCT SCI OTTAWA ON K1A 0R6 CANADA.;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类光学;
关键词
LIGHT-PROPAGATION; WAVE-GUIDES; WAVEGUIDES; FIBERS;

机译：光传播;波导管;波导管;光纤;

相似文献

外文文献
中文文献
专利

1. Full vectorial simulation for characterizing loss or gain in optical devices with an accurate and automated finite-element program [J] . Tzolov VP, Fontaine M, Sewell G, Applied optics . 1997,第3期

机译：完整的矢量仿真，可通过精确的自动化有限元程序表征光学器件的损耗或增益
2. Accurate loss analysis of single-mode fiber/D-fiber splice by vectorial finite-element method [J] . Conese T., Barbarossa G. IEEE Photonics Technology Letters . 1995,第5期

机译：矢量有限元法精确分析单模光纤/ D光纤接头
3. Vector finite-element modeling of the full-wave Maxwell equations to evaluate power loss in bent optical fibers [J] . Koning J., Rieben R.N., Rodrigue G.H. Journal of Lightwave Technology . 2005,第12期

机译：全波麦克斯韦方程的矢量有限元建模，以评估弯曲光纤中的功率损耗
4. Modeling of axially nonuniform photonic devices using finite-element base vectorial BPM [C] . B.M. Rahman, S.S. Obayya, P.A. Puah, Conference on photonics, devices, and systems . 2000

机译：使用有限元基载体BPM建模轴向不均匀光学器件
5. Electrically Injected Non-Hermitian Optical Devices Based on Tunable Gain/Loss Configurations [D] . Yao, Ruizhe. 2018

机译：基于可调增益/损耗配置的电注入非封闭仪光学器件
6. Optimization of tissue physical parameters for accurate temperature estimation from finite-element simulation of radiofrequency ablation [O] . Swetha Subramanian, T. Douglas Mast -1

机译：通过射频消融的有限元模拟优化组织物理参数以精确估算温度
7. Vector Finite-Element Formulation for the羽Taveguideswith Loss or Gain [O] . 大高眞人, 小林喬郎, OHTAKA Masato, 1991

机译：羽毛Taveguides损失或增益的矢量有限元公式
8. Advanced Processing of Nonlinear Optical Materials to Lower Pigtailing Cost,Reduce Optical Loss, and Reduce Drive Voltages in Devices [R] . Mustacich, R. V. 1996

机译：非线性光学材料的先进处理，降低了尾纤成本，减少了光损耗，降低了器件的驱动电压

Full vectorial simulation for characterizing loss or gain in optical devices with an accurate and automated finite-element program

摘要

著录项

相似文献

相关主题

期刊订阅