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Get everything you need to simulate, optimize, and tolerance your optical designs. Design complex optical systems for a wide range of applications with advanced features, including structural and thermal analysis.
Discover new ways to turn innovative ideas into products that shape the world. OpticStudio is the standard for optical, illumination, and laser system design in leading companies throughout the optics industry and at universities around the world.
Revolutionize optical design workflow allowing more time to work efficiently spending more time validating and optimizing your designs. Maximize efficiency and precision with our advanced API integration. Discover how the OpticStudio Enterprise edition can revolutionize your design process to quickly analyze the impacts of structural and thermal loads.
With the 2024 R1 release, Ansys Zemax OpticStudio delivers a comprehensive suite of features enhancing the support for multiphysics simulation, the design for manufacturing real optical systems, and enhanced support for incorporating diffractive optics.
Enables you to use Ansys Zemax OpticStudio as part of your Ansys Multiphysics workflow. Load refractive index datasets from a wide range of sources, including computational fluid dynamics tools like Ansys Fluent.
New workflow for import of lens geometries and optical properties from Ansys Zemax OpticStudio into Ansys Speos, compatible with the physical camera sensor. Streamlined and comprehensive straylight analysis in optical systems, including both free- floating lenses and constrained/housed lens systems, completed with the physical camera sensor.
New metalens simulation and analysis capabilities in Ansys Zemax OpticStudio: MTF, PSF, multi-scale, and multi-lens/metalens systems, new operands for phase constraint optimization. Simulate whole metalens with HPC CPU cluster, or accelerate FDTD with GPU (FDTD express mode).
The STAR Multiphysics tools enable customers to do both STOP analysis (Structural, Thermal, Optical Performance) and Ansys-exclusive SOFT analysis (Structural Optical Fluids Thermal). Ansys Zemax OpticStudio allows you to easily and accurately load the needed data from external solvers. Users can then assess system performance with structural, optical, fluids, and thermal effects simultaneously.
Learn more in this webinar: STOP Analysis Using STAR with an Automated Transient Workflow (ansys.com)
Current customers can download Ansys Zemax OpticStudio from the Download Center in the Ansys Customer Portal. For those who are not current customers but are interested in trying OpticStudio , Ansys offers a free 30-day trial of OpticStudio. It comes with sample files and design templates. Our extensive knowledge base offers a wide range of tutorials, from getting started, to system -level how- to articles.
Ansys Zemax OpticStudio can use an ideal phase profile to model the metasurface and then optimize it using ray tracing capabilities. Ansys Lumerical can then quickly generate its response on the nano-structure level. Based on this information, the metalens can then be accurately set in OpticStudio on a user-defined surface. All ray-based tools are available to assess the performances of your system.
The advanced tolerancing tools from Ansys Zemax OpticStudio include an easy-to-use surface irregularities option. It leverages the composite surface capabilities and uses Zernike sag data to model the surface irregularities, including for complex base shapes such as aspherical or many types of freeform surfaces. All other manufacturing tolerances can be added in order to assess your as-built performance yield.
Ansys Zemax OpticStudio is the solution for designing components and subassemblies within complex, high-precision optical systems. Such systems address a variety of applications across several high-growth industries, from AR/VR to LIDAR, medical imaging to data communications, and more.
Employs advanced ray tracing algorithms to simulate the behavior of light in optical systems, allowing engineers to analyze and optimize the performance of
lenses, mirrors, and other optical components.
Ansys Zemax OpticStudio includes optimization tools to adjust design parameters
automatically to meet specified performance criteria, helping engineers find the best
solution for their optical systems.
The Ansys Zemax OpticStudio is a powerful tool for optical engineers and designers to simulate, optimize, and validate their optical designs before physical prototypes are built. It helps save time and resources in the development of optical systems by allowing engineers to iterate and refine designs in a virtual environment.
To leverage the Ansys Zemax OpticStudio for multiphysics analysis requires the Ansys Zemax OpticStudio Enterprise license. The Ansys Zemax OpticStudio Enterprise license makes it simple to import structural, thermal, and refractive index data into OpticStudio workflows, yielding critical design insights, significant time savings, and new possibilities for system analysis.
Join us to discover how Ansys Optics enables multiphysics design from meta-atoms to centimeter-scale metalenses by seamlessly leveraging the combination power of Lumerical FDTD, RCWA and Zemax OpticStudio.
Join Ansys Senior Application Engineer Christophe Weisse on October 12th to demonstrate how OpticStudio's Contrast Optimization capability solves these problems by providing an alternative method for optimizing MTF.
The optical performance of the cameras can be significantly affected by extreme ambient conditions or in contact with the optomechanical elements. Accurate multi-physics simulations during the design stage are required to predict the system behavior under various working conditions to avoid the massive cost of prototyping cycles.
Optical and optomechanical Systems must perform well not only in simulation but also in real-world conditions. For systems exposed to temperature changes, one of the key goals is to achieve athermalization, where the system has high performance across a range of operating temperatures.
The projector is becoming increasingly popular among young people to replace the television to save space and have a larger display area. The demand for compact projectors leads to the design of this ultra-short throw projector type.
You can characterize the resolution of a diffraction-limited imaging system, such as a microscope, in many different ways. In Ansys Zemax OpticStudio, you can use the point spread function (PSF) for this purpose.
The Henyey-Greenstein model describes the angular distribution of light scattered by small particles. This model has been applied to numerous situations, ranging from the scattering of light by biological tissue to scattering by interstellar dust clouds.
Photoplethysmography (PPG) is a low-cost, non-invasive optical technology that takes physiological measurements on the surface of the skin. It is the most commonly used measurement of heart rate for heart rate trackers. P
In the aerospace industry, CubeSats have emerged as a low-cost, easily manufacturable solution for space-based optical systems. This blog series introduces how Ansys Zemax software can be used to take a CubeSat from an initial optical design to an opto-mechanical package ready for structural-thermal-optical-performance (STOP) analysis.
Innovation is essential for competitiveness, and many optical design teams are pushing the boundaries of innovation to produce ever-increasing capabilities that meet market demands across multiple industries. Let's explore how Ansys Zemax OpticStudio and Ansys Lumerical work together to enable end-to-end simulation of a complex optical design
The current augmented reality and virtual reality (AR/VR) market encompasses a wide range of trends. Designers and companies strive to find nontraditional solutions to meet the ever-evolving demands of mainstream consumers.
OpticStudio made it possible for me to achieve meaningful, effective results in my HPLM test bed project by handling all of the simulations and calculations. It gave me shortcuts, so I could focus on managing the scope of the experiments and achieve the best results
Ansys Zemax OpticStudio played an essential role in helping us prove the capabilities of a highly practical new waveguide system, and to design a model that is ready to implement for a variety of manufacturing scenarios.
During the COVID-19 pandemic, Jorge de Jesus Alvarado-Martinez, a doctoral candidate at the Instituto Nacional de Astrofsica, ptica, y Electrnica (INAOE) studying optical instrumentation and metrology, and some of his colleagues grew interested in the ways thermal imaging could be adapted to help with syndromic surveillance, which is the systematic collection, analysis, and interpretation of health data for the purposes of reducing exposure to infectious diseases.
This paper walks you through the five stages of an Ansys Zemax-enabled ultra-short throw projector system design and analysis, showing how our integrated tools help reduce the time, required expertise, and risk of errors associated with incorporating optomechanical system analysis into ultra-short throw projector system design.
hey, with the new DIRECT-11DX feature, is there a way to opt out of it using a fully cracked game? since i dont have origin/the ea app even so it somehow automatically became version 11dx and now idk how to turn it off
i cant even download the file before i can extract it. all the links for download send me to other sites and ive already had to quarantine some viruses. Ive had this before downloaded on an older pc and now everywhere is giving me a run around or trying to make me pay for it.
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