OpTaliX
OpTaliX is a comprehensive program for computer-aided design of optical systems, thin film multilayer coatings, and illumination systems. It provides powerful features to conceptualize, design, optimize, analyze, tolerate, and document virtually any optical system. OpTaliX includes geometrical and diffraction analysis, optimization, thin film multilayer analysis and refinement, non-sequential ray tracing, physical optics propagation, polarization analysis, ghost imaging, tolerance analysis, extensive manufacturing support, user-defined graphics, illumination, macros, and many more. It is successfully used for the design of photographic and video lenses, industrial optics (beam expanders, laser scanners, reproduction, machine vision), space optics, zoom optics, medical optics, illumination devices, fiber optical telecom systems, infrared optics, X-ray optics, telescopes, eyepieces, and many more.
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Ansys Zemax OpticStudio
Ansys Zemax OpticStudio is a comprehensive optical design software utilized globally by companies and universities to create and analyze optical systems, including imaging, illumination, and laser systems. It offers a user-friendly interface that integrates analysis, optimization, and tolerancing tools, facilitating the design of complex optical systems for a wide range of applications. The software supports both sequential and non-sequential ray tracing, enabling precise modeling of light propagation through various optical components. Advanced features include structural and thermal analysis, allowing users to assess the impact of environmental factors on optical performance. OpticStudio also provides extensive materials and optical element libraries, enhancing the accuracy of simulations. For students, Ansys offers a free version of OpticStudio, providing hands-on experience in designing and analyzing optical systems, thereby preparing them for future careers in optics.
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RayViz
RayViz is a SOLIDWORKS add-in developed by Lambda Research Corporation that enables users to apply and save optical properties directly within the SOLIDWORKS CAD environment. This integration allows for the assignment of optical characteristics from the TracePro property database, which are then stored as part of the SOLIDWORKS model. Users can define light sources and perform ray tracing within SOLIDWORKS to visualize light rays and paths, facilitating tasks such as beam path verification, detection of vignetting by mechanical structures, and identification of light leakage in light guides. RayViz includes catalogs of LED sources, as well as sources with Gaussian and Lambertian beam profiles. A significant advantage of RayViz is its ability to save SOLIDWORKS models in TracePro file format, enabling comprehensive optical analysis in TracePro. If modifications are made to the SOLIDWORKS model, the "update from RayViz" option in TracePro allows for synchronization of the changes.
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LucidShape
Quickly and easily create reflector or lens geometry with LucidShape FunGeo. It leverages proprietary algorithms that automatically calculate and construct optical geometries based on user-defined illuminance and intensity patterns. This unique, functional approach gives you the freedom to focus on overall design objectives rather than the implementation details of complex optical components. Accelerate LucidShape illumination simulations with GPUTrace and experience a quantum leap in speed. LucidShape is the first optical simulation software to take advantage of graphics processing unit computing to deliver simulation speed increases by orders of magnitude compared to multithreading capabilities. Use LucidShape's visualization module to demonstrate luminance effects when light sources in a model are illuminated and depict all interactions between system geometry and light sources.
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