Optical Page 11

Lumerical DEVICE 7.11.1416,Lumerical 2017bKey DEVICE applications include: Semiconductor devicesOptoelectronicsPhotovoltaic devicesMetamaterialsThermal tuning/switchingPlasmonicsSolvers Available:DEVICE CT DEVICE HTIntegrated design environment, charge transport solver Integrated design environment, heat transfer solverDEVICE DGTD Integrated design environment, optical solver Design EnvironmentBuild 1D, 2D, or 3D modelsImport from STL, GDSII, STEPParameterizable simulation objectsGeometry-linked sources and monitorsDomain partitioned solidsDEVICE CAD EnvironmentAdaptive Finite-Element MeshRepresent arbitrary geometries efficientlyAutomatic refinement based on geometry, materials, doping, and optical or heat generationsAdaptive MeshOptical modeling (DEVICE DGTD)Discontinuous Galerkin Time DomainObject-conformal meshing free of staircasingHigher polynomial ordersGaussian vector beamsFar-field and grating projectionsBloch boundary conditionsRequires DEVICE DGTD licenseRead more on DEVICE DGTD here. DGTD Heat transfer modeling (DEVICE HT)Steady state and transientHeat transportElectrical conductive transportRequires DEVICE HT licenseDEVICE Heat TransferCharge Transport modeling (DEVICE CT)Drift-diffusion solverDC and transient...

Lumerical MODE Solutions 7.11.1416,Lumerical 2017bKey MODE Solutions applications include: Integrated OpticsTapersCouplers and ResonatorsBragg GratingsThermal tuning / switchingElectro-optic modulatorsSurface plasmon waveguidesGraphene waveguidesFibersTransmission Lines3D CAD EnvironmentBuild 1D, 2D, or 3D modelsDefine custom surfaces and volumesImport from STL, GDSII or imagesImport spacial refractive index dataParameterizable simulation objectsMODE CAD EnvironmentAdvanced Conformal MeshCompatible with dispersive and high-index contrast materialsSubmesh sensitivity to geometryHigh accuracy for coarse meshRead our Conformal Mesh Whitepaper (requires registration)Conformal MeshModal AnalysisSpatial field analysisModal frequency analysisOverlap analysisBend loss, confinement factor, modal area analysisModal AnalysisBidirectional Eigenmode Expansion (EME) PropagationIdeal for large propagation lengths in waveguide or fiber devicesAutomatically sweep device length and periodicityRead the EME solver physics overviewEME Propagation2.5D variational FDTD (varFDTD) PropagationRapid analysis of planar waveguide geometriesAchieve close to 3D FDTD accuracy with...

Lumerical FDTD Solutions 8.19.1416,Lumerical 2018Key FDTD Solutions applications include: CMOS Image SensorsSolar CellsOLEDsIntegrated OpticsSurface MetrologySurface PlasmonsMetamaterialsPhotonic CrystalsLiquid CrystalsGraphene3D CAD EnvironmentBuild 1D, 2D, or 3D modelsDefine custom surfaces and volumesImport from STL, GDSII or imagesImport spacial refractive index dataParameterizable simulation objectsFDTD CAD EnvironmentAdvanced Conformal MeshCompatible with dispersive and high-index contrast materialsSubmesh sensitivity to geometryHigh accuracy for coarse meshRead our Conformal Mesh Whitepaper (requires registration)Conformal MeshMulti-coefficient ModelsAccurately represent real materials over broad wavelength rangeAutomatically generate from sampled data or user defined functionsRead our Multi-coefficient Model Whitepaper (requires registration)Multi-coefficient ModelsNonlinearity and AnisotropySpatially varying anisotropyWide range of nonlinear, negative index, and gain modelsDefine new material models with flexible material pluginsFDTD NonlinearityBroadband Fixed-angle Source Technique (BFAST)Inject light at a fixed angle over a broad spectrum...

Zemax OpticStudio V17OpticStudio® provides the flexibility to choose the optical and illumination design features you need.LightingTrace™ Accelerate conventional non-sequential ray tracing by orders of magnitude. Modify system parameters with real-time results and quickly optimize and tolerance systems. Stock Lens Matching Search vendor catalogs for off-the-shelf optical components to replace custom components. This can save you considerable costs in the finished design by eliminating the need for custom manufacturing. Part Designer Design complex, custom CAD components to incorporate in a non-sequential optical system as fully parametric parts or to export to CAD formats. Contrast Optimization Optimize systems for MTF at least 30 times faster using the Contrast optimization – this innovative new feature uses the Moore-Elliott method by Zemax.Product:Zemax OpticStudio V17_Leading...

SPEOS.V2017.for.SolidworksSPEOS is the only optical solution integrated in your CAD software: CATIA V5, NX, Creo, and SOLIDWORKS. At OPTIS, we know that optical simulation cannot be completely separated from the mechanical design world, because optics impacts on so many parts of the overall design process. Every simulation must be included in the CAD/CAM package, to consider the interactions of photons with mechanical geometries. You can thus work with SPEOS at any stage of your design process to: Better understand and control the behavior of light in your product Easily improve your product to ensure its efficiency and compliance to standards The intuitive approach of the SPEOS interface, associated with its advanced features, makes it easy to use for experts as...

SPEOS.V2017.for.SolidworksSPEOS is the only optical solution integrated in your CAD software: CATIA V5, NX, Creo, and SOLIDWORKS. At OPTIS, we know that optical simulation cannot be completely separated from the mechanical design world, because optics impacts on so many parts of the overall design process. Every simulation must be included in the CAD/CAM package, to consider the interactions of photons with mechanical geometries. You can thus work with SPEOS at any stage of your design process to: Better understand and control the behavior of light in your product Easily improve your product to ensure its efficiency and compliance to standards The intuitive approach of the SPEOS interface, associated with its advanced features, makes it easy to use for experts as...

AGi32 is first and foremost, a Calculation tool for accurate photometric predictions: A technical tool that can compute illuminance in any situation, assist in luminaire placement and aiming, and validate adherence to any number of lighting criterion.However, there is so much more that can be done to enhance the understanding of photometric results. Visualization is extremely important to comprehend changes in luminance for different materials and surface properties and predict the effect of various luminaire designs in real-world, light and surface interaction. With the ability to see results clearly for an entire project, AGi32 becomes a mock-up substitute that can save time and money by creating a virtual model of a proposed design. It can reveal characteristics and effects that...

Zemax OpticStudio V16.5 Sp5OpticStudio is the industry-leading optical design software that combines complex physics and interactive visuals so you can analyze, simulate, and optimize optical systems all within tolerance specifications. Save time and money by creating a variety of optical, illumination, and laser systems with one software program. Design for manufacturability while you speed time to market and reduce development costs.The Standard Edition includes improvements including a new Field Data Editor, Fields Wizard, and field conversion tool. You can use the improved Spot X+Y default merit function, which is now the fastest way to optimize for small spot sizes. Test different tolerances with a new on/off toggle. Customize the location of your design files. And more! The Professional Edition includes...

Optiwave OptiBPM 12OptiBPM is a comprehensive CAD environment used for the design of complex optical waveguides. Perform guiding, coupling, switching, splitting, multiplexing, and demultiplexing of optical signals in photonic devices.Based on the Beam Propagation Method (BPM) of simulating light passage through any waveguide medium, OptiBPM allows designers to observe computer-simulated light field distribution and examine the radiation and the guided field, simultaneously. Reliably characterizing the beam facilitates computer-aided design of a variety of integrated and fiber optic guided wave problems. OptiBPM delivers significant new features, such as the ability to define and use anisotropic materials in layout designs and waveguide simulations. OptiBPM can improve design engineers’ productivity, reduce risk, and lower overall costs related to design of waveguide solutions. OptiBPM’s...

vpi transmission maker 9.5 VPItransmissionMaker™ Optical Systems accelerates the design of new photonic systems and subsystems for short-range, access, metro and long haul optical transmission systems and allows technology upgrade and component substitution strategies to be developed for existing fiber plants. The combination of a powerful graphical interface, a sophisticated and robust simulation scheduler and realistic simulation models together with flexible optical signal representations at different degrees of abstraction enables accurate and efficient modeling of any transmission system including bidirectional links, ring and mesh networks. Sampled signal modeling supports detailed simulation of the optical field in the time domain enabling, for instance, bit-error-rate estimation and eye-diagram analysis. Time-averaged signal representation facilitates efficient modeling of complex systems without the need to...