Ansys Zemax OpticStudio - Comprehensive Optical Design Software
With a comprehensive suite of tools for design, optimization, and analysis, this software facilitates stray light analysis, tolerance analysis, and optimization to ensure designs meet stringent performance standards. You can simulate light interactions with intricate surfaces and materials, considering scattering, diffraction, and polarization effects. Supporting parametric sweeps, Monte Carlo simulations, and sensitivity analysis, Zemax OpticStudio enables comprehensive exploration of design scenarios to identify optimal solutions. Its integration with other CAE tools ensures seamless data exchange and system-wide analysis, making it indispensable for optical engineers in industries such as aerospace, automotive, consumer electronics, and medical devices.
- Industry-leading optical system design
- Robust, powerful ray tracing
- Advanced Optimization Algorithms
- Intuitive, easy-to-use UI
- Integration with CAE Tools
- Comprehensive Material Libraries
- Scripting and Customization
- Dynamic CAD integrations
- Global userbase
Check out the key features of Ansys Zemax OpticStudio
Advanced Ray Tracing
Accurately modeling the propagation of light through complex optical systems and simulating the interaction of light with surfaces and materials, accounting for reflection, refraction, scattering, and absorption, is possible, supporting diverse applications such as imaging, illumination, and laser systems.
Physical Optics
Detailed analysis of how light behaves when encountering complex surfaces and apertures is provided, enabling the design of high-precision optical systems. This approach is crucial for applications that require accurate wavefront analysis, such as laser beam shaping, holography, and advanced imaging systems.
Tolerance Analysis
The impact of manufacturing and alignment variations on optical system performance can be evaluated with tolerance analysis. It identifies critical tolerances and predicts how deviations affect metrics such as image quality and optical efficiency.
Optimization Algorithms
Automatic adjustment of design parameters is achieved for desired performance metrics. These algorithms iteratively refine optical designs by minimizing or maximizing specific objectives, such as minimizing aberrations or maximizing transmission efficiency.
Structural and Thermal Analysis
Evaluating how structural deformations and thermal expansions impact optical performance, ensuring robust designs under different operating conditions, is enabled. By simulating environmental factors, the durability and reliability of optical systems can be easily optimized.
Monte Carlo Simulations
These simulations use statistical methods to assess optical system performance under varying conditions, providing a probabilistic view and identifying potential issues. They are especially useful for complex designs with multiple interacting variables, revealing insights into system reliability and quality.
Sensitivity Analysis
By systematically altering parameters, sensitivity analysis identifies which variables have the most significant impact on metrics such as image quality, alignment, and efficiency. This process helps engineers understand the robustness of their designs and pinpoint critical tolerances that need tight control.
Software Sales
If you have any general questions about our Ansys, Moldex3D, Dante, Particleworks, or CF Turbo simulation software (quotation, licensing, training), please contact us using one of the following contact details. Please note that our software is only available to customers from the following countries: Hungary, Slovenia, Croatia, Serbia, Bosnia and Herzegovina, Montenegro, and Macedonia.
sales (at) econengineering.com
+36 1 279 0320
Greg Lipóczi, Dr.
Commercial Director
László Molnár, Ph.D.
Academic & Key Account Representative
Péter Bara
Key Account Manager
East Hungary
János Simon
Key Account Manager
West Hungary
