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ZEMAX
Ansys Zemax OpticStudio
Ansys Zemax OpticStudio is the world’s leading optical design and analysis software, used by engineers and scientists across industries to design, analyze, and optimize high-precision optical systems. OpticStudio supports sequential and non-sequential ray tracing, physical optics propagation, and tolerance analysis in a single, powerful environment.
Through Advinno Technologies, OpticStudio is available for applications including imaging systems, illumination optics, AR/VR displays, LiDAR, medical imaging, and laser systems. OpticStudio’s optimization and tolerancing tools ensure designs are both optically optimal and manufacturable, bridging optical design with real-world production requirements.
Key Ansys Zemax OpticStudio Solutions:
- Sequential ray tracing for imaging systems
- Non-sequential ray tracing for stray light analysis
- Physical optics and beam propagation
- AR/VR, LiDAR, and HUD optical design
- Lens and mirror system optimization
- Tolerance analysis for manufacturing robustness
- Camera, microscope, and telescope design
- Medical imaging and laser system modeling
Sequential and Non-Sequential Ray Tracing
OpticStudio delivers advanced sequential ray tracing through optical elements for imaging system analysis and non-sequential ray tracing for stray light, scatter, and illumination distribution analysis. Engineers can model lenses, mirrors, gratings, and freeform surfaces with high fidelity, simulating both coherent and incoherent light sources across complex multi-element optical systems.
- Sequential ray tracing for imaging optics
- Non-sequential ray tracing for stray light
- Freeform surface and grating support
- Coherent and incoherent light source modeling
Optical System Optimization
OpticStudio’s powerful optimization tools automatically adjust lens shapes, materials, and coatings to maximize optical performance and minimize aberrations. The software supports multi-configuration optimization for zoom systems and systems with multiple operating modes, accelerating the design of complex optical assemblies for applications from consumer cameras to high-precision scientific instruments.
- Automated lens shape and material optimization
- Aberration minimization and wavefront control
- Multi-configuration and zoom system design
- Consumer, industrial, and scientific instrument support
Tolerance Analysis and Manufacturing Readiness
OpticStudio’s tolerancing capability allows engineers to assess the impact of manufacturing variations, assembly errors, and material property uncertainties on optical system performance, ensuring designs are robust and manufacturable. Integration with physical optics beam propagation extends analysis to laser systems, fiber couplers, and diffractive optical elements.
- Manufacturing variation and assembly error analysis
- Sensitivity and Monte Carlo tolerance analysis
- Physical optics and beam propagation (POP)
- Laser, fiber coupler, and diffractive element support
