Ray Tracing Engine
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Features
Brief Description of Product. Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.
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Sequential and non-sequential ray tracing and polarization-based ray doubling at material interfaces and in anisotropic media.
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Uses the polarization ray trace (PRT) matrix tracks polarization effects at every surface, incorporating 100 built-in functions for easy polarization calculations, including Fresnel polarization coefficients.
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Use our extensive thin film library on top of easy-to-use tools for designing and simulating custom thin film coatings.
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Advanced simulation tools for modeling how light interacts with gratings and other periodic optical structures, leveraging Rigorous Coupled-Wave Analysis (RCWA) to accurately compute diffraction, polarization changes, and wavefront transformations.
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Model and analyze uniaxial, biaxial, and optically active crystal optical elements, accounting for ray splitting and precise polarization effects that result form anisotropic material structures.
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Model stress via closed-form analytic expressions or data imported from MoldFlow and Timon3D CAD programs. With these models in hand, track the effects of stress-induced birefringence on wavefront aberrations, interferogram results, point spread functions, and other critical performance metrics.
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Integrate polarimetry data easily into optical systems for analysis.
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Analyze the polarization state, at each surface interaction, as rays propagate through your optical system. For example, construct Jones and Mueller pupil functions to quantify polarization effects across a system's exit pupil, revealing potential distortions in beam shape, reduced contrast, or unwanted phase shifts.
Integrated Polarization Features
Polarization algorithms built from the ground up.
Source polarization, polarization sensitive components, and polarized detection modules are seamlessly combined.
Calculation Modules & Applicability
Ideal and real polarizer models, retarders, and crystals
Coating modules
Birefringent 3D ray plotting
TIR polarization effects
Ideal gratings and integrated RWCA analysis
Future-Ready
Adaptable structure.
Additional calculation and analysis modules can be added quickly to build out proprietary applications.
Mathematica Integration
Deep integration Polaris and Mathematica.
Sophisticated development environment
5000 built-in functions
Reliable platform
Extensive documentation