Rsoft Cad Manual -
Perfectly Matched Layer (PML) boundaries absorb outgoing waves. Keep your structures far enough from the simulation edge to prevent field profiles from clipping into the boundary layers. If you need help setting up a specific design, tell me:
The RSoft CAD environment facilitates photonic design through a symbol-based system where parametric definitions allow for efficient modeling and optimization of complex structures. Key functionalities include hierarchical settings for global and local properties, along with manual or automatic mesh refinement to ensure simulation convergence. For comprehensive technical specifications, users can consult the cad_manual.pdf found in the installation directory.
Allows you to define different refractive indices for the X, Y, and Z axes, which is vital for birefringent crystals.
Here is a step-by-step guide to using the RSoft CAD manual: rsoft cad manual
If you are looking to get started with the RSoft Suite, I can help you understand the core differences between the modules like BeamPROP and DiffractMOD. DiffractMOD RCWA User Guide 2024 | PDF - Scribd
For complex structures, the CAD includes layout utilities to automatically generate common patterns, such as photonic crystals, gratings, and Arrayed Waveguide Gratings (AWGs).
The suite of simulation engines controlled by the RSoft CAD is extensive, ensuring a solution exists for nearly any photonic modeling challenge. These engines include: Here is a step-by-step guide to using the
The Launch Window tells the simulation engine how light enters the structure:
This provides a 2D or 3D view of your design.
Follow this standard process to construct any device within RSoft CAD. Step 1: Global Settings and Simulation Domain When opening a new file
Once your layout is complete in the CAD environment, you can open specific simulation modules with a single click.
When opening a new file, you are prompted with the dialog box.
: Engineers can import an existing .ind layout directly inside another design file. This allows complex photonic integrated circuits (PICs) to be assembled out of smaller, pre-tested sub-components.