[1] Justin Peatross and Harold Stokes, “Physics of Light and Optics”
OptiFDTD Manuals
- Background and Tutorials
- Applications
- Symmetric Lossless X Coupler
- Power Combiner
- VFEM Accuracy and Advantages
- Plasmon Polaritons – Vector Finite Element Method
- Hollow Core Fiber – Vector Finite Element Method
- Plasmonic Arrays
- Surface Plasmon
- Diffraction Grating
- Photonic Crystal
- Nanoparticle
- Silicon Nanowire for Photovoltaic Applications
- Nano-Lens and Micro-Lens Simulations
- Light Scattering from Single Biological Cells
- Optical Grating simulations using OptiFDTD
- Photonic Bandgap Micro-cavity in Optical Waveguide
- OptiFDTD Overview
- Overview
- Material Models
- Material Models Introduction
- Constant Dielectrics
- Lossy Dielectrics
- Lorentz-Drude Model
- Nonlinear Material
- Dispersive 2nd-Order Nonlinear Material
- Dispersive 3rd-Order Nonlinear Material
- Dispersive Kerr Effect
- Dispersive Raman Effect
- Nonlinearity Simulation
- Lorentz-Drude Model in Frequency Domain
- Lorentz-Drude Model in Time Domain
- References
- Boundary Conditions
- Input Wave
- 2D FDTD Band Solver
- Post-Simulation Data Analysis
- Plane Wave Expansion (PWE) Method
- Power Transmittance Calculation with VB Scripting
- Layout Designer
- 32-bit vs 64-bit
- Lesson 1 - Getting Started
- Lesson 2 - Input Wave Setup
- Lesson 3 - Photonic Crystal and Photonic Band Gap
- Lesson 4 - Multiple Resonant Lorentz Dispersive Material
- Lesson 5 - Drude Model for Noble Metal and Surface Plasma
- Lesson 6 - Second Order Nonlinearity
- Lesson 7 - Four Wave Mixing
- Lesson 8 - Plane Wave Simulation
- Lesson 9 - FDTD Band Solver
- Lesson 10 - Lorentz-Drude Model for Metal and Surface Plasma
- Lesson 11 - Analyzing 1D Photonic Crystals (Bragg Gratings)
- Lesson 12 - Analyzing 2D Photonic Crystals
- Lesson 13 - Analyzing 3D Photonic Crystals
- Lesson 14 - Analyzing 2D Defects in Photonic Crystals
- Lesson 15 - Grating Simulation
- Lesson 16 - Calculating Power Transmittance and Reflection using VB Script
- Lesson 17 - Parameter Sweep Simulation
- Lesson 18 - 64-bit 3D Simulator
- Lesson 19 - Heating Absorption
- Lesson 20 - 2D TF/SF Simulation and RCS Detection
- Lesson 21 - 3D Surface Plasmon
- Lesson 22 - 3D Layout using Non-Uniform Mesh
- Applications
Simulating the Future of Networks with Optiwave
October 21, 2019
Optiwave Systems is an Ottawa based software company, boasting a robust variety of photonic design tools, which it provides to hundreds of leading high-technology institutions. Founded in 1994 and incorporated in 2005, the company has a well-established community of over one thousand users in over seventy countries. Optiwave has come to CENGN in order to validate…
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