Eigenmode Expansion vs Finite Difference Time Domain: Which is Better?
Video Chapters:
- Intro 0:12
- FDTD algorithm overview 0:26
- EME algorithm overview 03:31
- Algorithm Summary 06:11
- EME vs FDTD : Tapers and spot size converters 06:45
- EME vs FDTD : Polarization converter 08:11
- EME vs FDTD : MMI coupler 09:47
- EME vs FDTD : Waveguide splitter 11:05
- EME vs FDTD : Grating couplers 12:29
- EME vs FDTD : Waveguide Bragg grating 14:26
- EME vs FDTD : Fiber Bragg grating 19:10
- Summary of EME vs FDTD examples 19:44
- Lumerical Product overview 20:58
In this video, we compare finite difference time-domain (FDTD) and eigenmode expansion (EME) based optical methods for simulating integrated optical components. We will compare simulation times and results for a number of passive integrated optical components such as tapers, splitters, MMIs, waveguide Bragg gratings, waveguide couplers, and grating couplers.
Видео Eigenmode Expansion vs Finite Difference Time Domain: Which is Better? канала Ansys Photonics
- Intro 0:12
- FDTD algorithm overview 0:26
- EME algorithm overview 03:31
- Algorithm Summary 06:11
- EME vs FDTD : Tapers and spot size converters 06:45
- EME vs FDTD : Polarization converter 08:11
- EME vs FDTD : MMI coupler 09:47
- EME vs FDTD : Waveguide splitter 11:05
- EME vs FDTD : Grating couplers 12:29
- EME vs FDTD : Waveguide Bragg grating 14:26
- EME vs FDTD : Fiber Bragg grating 19:10
- Summary of EME vs FDTD examples 19:44
- Lumerical Product overview 20:58
In this video, we compare finite difference time-domain (FDTD) and eigenmode expansion (EME) based optical methods for simulating integrated optical components. We will compare simulation times and results for a number of passive integrated optical components such as tapers, splitters, MMIs, waveguide Bragg gratings, waveguide couplers, and grating couplers.
Видео Eigenmode Expansion vs Finite Difference Time Domain: Which is Better? канала Ansys Photonics
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