Used for simulating waveguides and fiber applications.
The entire RSoft layout is saved as an ASCII text file (usually with a .ind extension). Advanced users can bypass the GUI completely and write structural loops (e.g., defining photonic crystal hole arrays) using RSoft's native command syntax or command-line scripts. 5. Setting Up Simulation Monitors and Excitations
The mesh size must be uniform and tiny. Aim for at least 10 to 20 grid points per wavelength inside the highest refractive index material :
: A generalized mode solver based on the Finite Element Method. Accessing the Manual and Support
The is the foundational core of the Synopsys Photonic Solutions suite. It acts as the central interface where users design, configure, and manage complex photonic structures before passing them to specialized simulation engines like FullWAVE, BeamPROP, or BandSOLVE. rsoft cad manual
Use built-in monitoring tools to view and interpret the output. Conclusion
A finite element method (FEM) tool for mode solving. 2. Powerful Layout Capabilities
: For rotationally symmetric, core-cladding structures.
A tree view that shows every segment, primitive, and lens in your current project. 2. Defining the Material Profile Used for simulating waveguides and fiber applications
:
Due to its 2D nature, graphene is tricky to model. The manual provides specific functions ( graphene_real and graphene_imag ) that calculate the refractive index based on chemical potential, temperature, and scattering rates. You can use isotropic graphene or anisotropic versions (GrapheneCX, CY, CZ) depending on the polarization orientation of your light source.
The manual details how to build complex structures from the ground up using both graphical and mathematical inputs.
: Place monitors to record data such as power, phase, or field profiles during the simulation. Choose Engine : Launch the appropriate engine (e.g., for BPM) directly from the CAD interface. ИСОИ РАН 4. Key Module Integration Primary Use Manual Focus Waveguides and fiber applications. Vector BPM, mode solving, and pathways. FDTD for nanophotonics and biophotonics. Time-domain analysis and advanced excitation. Band structures of photonic bandgap devices. Brillouin zone mapping and mode spectrums. DiffractMOD Diffractive gratings and diffractive structures. RCWA algorithm and periodic structures. 5. Helpful Resources FullWAVE 6.3 Accessing the Manual and Support The is the
RSoft is a comprehensive software solution for designing and simulating optical and photonic systems. The RSoft CAD manual is an essential guide for users to get the most out of the software. The manual provides detailed information on the software's features, tools, and functionalities, enabling users to design, simulate, and optimize their optical and photonic systems with ease.
The is the essential technical guide for the RSoft Photonic Device Tools, specifically for the RSoft CAD Environment , which serves as the core interface for designing and simulating photonic devices like waveguides, gratics, and photonic crystals. What Makes the Manual "Useful"?
Used for gratings, meta-surfaces, and photonic crystal structures to simulate an infinite array. 7. Troubleshooting Common RSoft CAD Layout Errors Symptom / Error Root Cause Corrective Action Discontinuous fields at waveguide junctions. Objects are not perfectly touching in space.