Modeling of Eigenmodes and Overlaps in Waveguide Structures
Project description
meow
Modeling of Eigenmodes and Overlaps in Waveguides
A simple electromagnetic EigenMode Expansion (EME) tool for Python.
Installation
Minimal installation
pip install meow-sim[min]
Full installation
pip install meow-sim[full]
Selecting features
You can select which features to enable during installation as follows:
pip install meow-sim[feature1,feature2,...]
Available features
min
: minimal installation (equivalent to not specifying any features)vis
: explicitly installs matplotlib and trimesh.jax
: use JAX in stead of numpy to calculate the S-matricesklu
: useklujax
to speed up S-matric calculations (impliesjax
). Note: you need the SuiteSparse headers on your computer for this to work.gds
: enable GDS creation with GDSFactory (see GDS Taper example).ipy
: install useful jupyter/ipython packages.dev
: install dev dependenciesfull
: enable all the above features.
Documentation
Credits
- DALL-E: “a drawing of a kitten with laser eyes walking towards me” (logo)
- Tidy3D: meow uses the free FDE mode solver from Tidy3D.
- SAX: meow uses SAX as its circuit simulator when cascading the overlap S-matrices.
- klujax: Although technically an optional backend for SAX, klujax will significantly speed up the final S-matrix calculation of your structures.
- EMEPy: an excellent alternative python-based EME solver with optional neural network mode solver.
- Rigorous and efficient modeling of wavelength scale photonic components: PhD thesis of Peter Bienstman.
Project details
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