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Beam Envelope vs Frequency Domain
Posted 20 juil. 2015, 08:20 UTC−4 Wave Optics, Modeling Tools & Definitions, Parameters, Variables, & Functions Version 5.0, Version 5.1 4 Replies
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Hello everyone,
I have a big doubt about whether it's bettere to use the Beam Envelope or the Frequency Domain Physics to model an optical Add-Drop filter.
I need to simulate the behaviour of the coupling between a waveguide, in which the input wave is fed, a MicroRacetrack Resonator (MRR) and another waveguide from which it's possible to collect an output. I need to evaluate the coupling efficiency in a range of wavelengths (typically from 1500 to 1600 nm) and with varying MRR geometrical parameters.
The geometry is shown in the picture, the mesh has been set to Free Triangular with different maximum element size for the core (waveguides and MRR, silicon) and the cladding (air) material, depending on the refractive index.
I tried to follow the examples in the Model Library both for the FD and the BE physics but, while the former has a huge computational weight, the latter doesn't converge.
Any suggestion is appreciated.
Thanks.
I have a big doubt about whether it's bettere to use the Beam Envelope or the Frequency Domain Physics to model an optical Add-Drop filter.
I need to simulate the behaviour of the coupling between a waveguide, in which the input wave is fed, a MicroRacetrack Resonator (MRR) and another waveguide from which it's possible to collect an output. I need to evaluate the coupling efficiency in a range of wavelengths (typically from 1500 to 1600 nm) and with varying MRR geometrical parameters.
The geometry is shown in the picture, the mesh has been set to Free Triangular with different maximum element size for the core (waveguides and MRR, silicon) and the cladding (air) material, depending on the refractive index.
I tried to follow the examples in the Model Library both for the FD and the BE physics but, while the former has a huge computational weight, the latter doesn't converge.
Any suggestion is appreciated.
Thanks.
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4 Replies Last Post 29 juil. 2015, 10:59 UTC−4