- Accurately model diffracted emission from micro-optic sources. Account for diffractive effects according to Fraunhofer diffraction theory in creating the ill.
- Zemax 13 release 2 crack The intuitive user interface combined with a comprehensive array of features and unmatched functionality make OpticStudio the preferred design platform for. One pass allows only one user at a time, to access a shared license pool.
Zemax also offers a fixed price for multi-year terms, so you can lock in current pricing for up to three years. Please contact your Account Manager or local sales office to discuss your options.
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This empowers CAD users to detect errors early, reduce back-and-forth communication with optical engineers and avoid expensive physical prototyping by delivering analysis tools that show the impact on optical performance. CAD users can also update the .ZBD file when there is a change in the optical system, making it easier to identify how the mechanical design needs to change with changes to the optical design.
OpticsBuilder also allows CAD users to share ISO compliant optical drawings with a push of a button using an automatic design export tool.
The results reported by Physical Optics Propagation (POP) may differ from those reported by ray-based analyses, such as the Spot Diagram, for several reasons. Namely, POP models a different type of propagation from traditional ray propagation in that it is most commonly used to model Gaussian beams. Rays will travel in a straight line. That is, a collimated beam will never change size and a diverging beam will retain the same divergence everywhere. This is not the case for a Gaussian beam, as it will diffract as propagates. Within the beam’s Rayleigh range, the size of a Gaussian beam changes slowly, and far beyond the Rayleigh range, the beam size changes linearly with propagation distance. Near the Rayleigh range, however, the beam size will change nonlinearly with propagation distance. These three factors can all contribute to difference between a POP results and ray-based analysis results.
Check out this webinar for a detailed discussion on how and when (and when not) to use POP to model Gaussian beams in OpticStudio.
Check out the Knowledgebase for instructions on how to locate geometry errors and how to fix the error message' Not Enough Segments Allocated to Trace All Possible Ray Paths.'
When softkey licenses fail to transfer from one computer to another, they often do so for one of two reasons: the Zemax License Manager (ZLM) on one computer is outdated or one or more components of the Zemax License Manager are installed improperly.
The first thing to check which version of the ZLM is installed on both the source and destination computers. You must ensure that the version of the ZLM installed on both computers either predates or postdates August 2016. There was a change made to the transfer process at this time, and softkey licenses cannot be transferred to or from ZLMs which use different transfer methods. The version date for the ZLM can be found at the top of the ZLM window.
If you’re still receiving error messages after ensuring that you’re using compatible ZLM versions, there may be one or more components of the ZLM that are installed improperly. The first step to fixing this error is to repair the ZLM using the instructions outlined here.
If you are still unable to complete your license transfer after doing this, contact support@zemax.com for next steps.
Users who have perpetual OpticStudio licenses (sold before April 1, 2019), have access to two instances of the software.
Users with subscription licenses for OpticStudio can run four instances with the Professional Edition and eight instances with the Premium Edition. For more information on OpticStudio subscription licensing, check out the Subscription FAQ!
REDMOND, Wash.--(BUSINESS WIRE)--Radiant Zemax, LLC today released Zemax 13 Release 2, continuing the development of its industry standard software for optical and illumination design. Zemax 13 Release 2 delivers a powerful competitive advantage with industry-leading design, simulation and optimization capabilities plus proprietary features that improve accuracy, performance and reduce time-to-innovation.
“More than 70 new features, enhancements and performance improvements have been added to Zemax in 2013,” said Paul Caragher, chief executive officer at Radiant Zemax. “Optical and illumination design professionals require an expanding set of tools to quickly move designs from drawing board to production. At Radiant Zemax, we are actively investing in Zemax product development to provide the breadth and depth of capabilities needed to meet any optical and illumination design challenge.”
Breakthrough Features in Zemax 13 Release 2
Stock Lens Matching Tool
Save time and lower manufacturing costs. The Stock Lens Matching Tool quickly finds the best commercially available lens for your design. Choose from more than 30 stock lens catalogs for design match analysis. Identify key system constraints such as lens diameter and focal length and easily convert custom design lenses into the best commercial equivalent with a single click.
Zemax 13 User Manual
Bidirectional Scatter Distribution Function (BSDF) Material Model Library
Unsurpassed simulation accuracy. Eliminate errors caused when estimating material scatter coefficients with the comprehensive library of measured BSDF scatter models. Choose from a wide array of engineering materials or quickly evaluate new materials by simply loading the scatter models.
Non-Sequential Source Diffractive Tool
Accurately model diffraction in micro-optic systems and account for diffractive effects according to Fraunhofer diffraction theory in illumination from micro-optic apertures, mirrors and other small optical components.
Grid Gradient Index for Non-Sequential Analysis
The Grid Gradient Index model in NSC defines optical material properties in three dimensions for precise analysis, is ideal for Finite Element Analysis (FEA) and easily uses measured data.
“You Asked – We Programmed”
“’You asked, we programmed,’ is a direct response to user feedback,” said Dr. Mark Nicholson, vice president, Zemax Group. “Meeting users’ needs ensures Zemax is powerful, accurate and user-friendly. Zemax developers added a MATLAB® file conversion tool, CE classes for roadway lighting and quick-focus selection on the visual optimizer.”
New Edition Naming for Zemax 13 Release 2
User feedback demonstrated a need to change “legacy” edition naming. New naming will help users determine the proper edition for their needs.
Zemax Premium (formerly Zemax IE)
A comprehensive optical and illumination system design solution that builds on Zemax Professional. It adds dynamic CAD interchange with SolidWorks®, Creo® Parametric® and Autodesk® Inventor® to edit parts and assemblies as if they were native, built-in Zemax objects. LightningTrace™ allows fast approximate modeling of illumination systems and fully supports optimization and tolerancing. Advanced Path Analysis identifies all the paths stray light may take. Catalogs of measured LED and other sources, and of measured BSDF models gives the most accurate results available.
Zemax Professional (formerly Zemax EE)
Increase design capabilities with all Zemax Standard functionalities plus powerful new features. Physical Optics allows the study of laser beam propagation in optical systems. Comprehensive non-sequential ray-tracing models non-imaging systems with multiple sources, ray splitting, scattering and multiple detectors in a global 3D design environment. Colorimetric features work with human visual response as well as radiometric data. Users can link to MATLAB® and other external programs as well as import and export CAD files.
Zemax Standard (formerly Zemax SE)
Zemax Standard provides everything needed for lens design and modeling of complex imaging and focal systems. Flexible editors provide lens design, optimization, tolerancing and multi-configuration control of systems, geometric and diffraction analyses, image simulation, polarization, thin-film modeling and more.
With three editions, users may purchase the feature set that best matches their needs. For complete details, see RadiantZemax.com/Zemax.
About Radiant Zemax
World leaders in optics, lighting and display devices turn to Radiant Zemax for high-value design, test and measurement systems that reduce costs, lower risk and shorten time-to-innovation. Radiant Zemax product lines include Zemax optical and illumination design software, TrueTest automated visual inspection for display systems and ProMetric imaging colorimeters, photometers and light source measurement systems. Headquartered in Redmond, Washington, Radiant Zemax delivers optics, light and color technology leadership, service and support to clients around the world. Learn more at: RadiantZemax.com.