Lumerical FDTD Solutions 8.19.1522,Lumerical 2018a 3D/2D Maxwell's solver for nanophotonic devices Key FDTD Solutions applications include: CMOS Image Sensors Solar Cells OLEDs Integrated Optics Surface Metrology Surface Plasmons Metamaterials Photonic Crystals Liquid Crystals Graphene 3D CAD Environment Build 1D, 2D, or 3D models Define custom surfaces and volumes Import from STL, GDSII or images Import spacial refractive index data Parameterizable simulation objects FDTD CAD Environment Advanced Conformal Mesh Compatible with dispersive and high-index contrast materials Submesh sensitivity to geometry High accuracy for coarse mesh Read our Conformal Mesh Whitepaper (requires registration) Conformal Mesh Multi-coefficient Models Accurately represent real materials over broad wavelength range Automatically generate from sampled data or user defined functions Read our Multi-coefficient Model Whitepaper (requires registration) Multi-coefficient Models Nonlinearity and Anisotropy Spatially varying anisotropy Wide range of nonlinear, negative index, and gain models Define new material models with flexible material plugins FDTD Nonlinearity Broadband Fixed-angle Source Technique (BFAST) Inject light at a fixed angle over a broad spectrum for periodic structures BFAST accelerate the analysis of: Metamaterials Gratings-based devices Solar cells Image sensors Broadband fixed-angle source technique 1D Stack Optical Solver Optimize multilayer devices instantly using both plane wave and dipole illumination Include effects due to multilayer interference, material dispersion and anisotropy Assess the quantum efficiency and extraction efficiency of electroluminescent devices 1D Stack Optical Solver Interoperable with DEVICE Design, simulate, and optimize active components using optical, electrical, and thermal multiphysics Photovoltaic Electro-optic Opto-thermal Interoperability Interoperable with Ray-Tracing Addresses applications that require both nanoscale and macroscale optics OpticStudio by Zemax ASAP by Breault Research