论文信息 - Modeling of guided-wave optical components with efficient finite-difference beam propagation methods

Modeling of guided-wave optical components with efficient finite-difference beam propagation methods

The scalar and vector finite difference beam propagation methods (BPMs) as well as a bidirectional BPM both for two-dimensional and for three-dimensional structures are presented. These can be implemented on the workstation level, and various modeling examples are demonstrated. The use of these techniques can enhance the design and analysis of various guided-wave circuit components.<<ETX>>

Youngchul Chung | Nadir Dagli

[1] S. Chu,et al. A semivectorial finite-difference time-domain method (optical guided structure simulation) , 1991, IEEE Photonics Technology Letters.

[2] N. Dagli,et al. Explicit finite difference vectorial beam propagation method , 1991 .

[3] D. Yevick,et al. Split-operator electric field reflection techniques , 1991, IEEE Photonics Technology Letters.

[4] Youngchul Chung,et al. Analysis of Z-invariant and Z-variant semiconductor rib waveguides by explicit finite difference beam propagation method with nonuniform mesh configuration , 1991 .

[5] B. Hermansson,et al. Efficient beam propagation techniques , 1990 .

[6] Youngchul Chung,et al. An assessment of finite difference beam propagation method , 1990 .

[7] N. Dagli,et al. Analysis of integrated optical corner reflectors using a finite-difference beam propagation method , 1991, IEEE Photonics Technology Letters.