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Since 1999 our products and services shorten or even enable development cycles of innovative optical components and systems. All activities are based on the fast physical optics software VirtualLab Fusion, which provides a platform for connecting inbuilt and customized electromagnetic field solvers. This approach enables fast physical optics with ray tracing embedded in a well-defined way.
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In this online training course, we will give you the keys to make your work with VirtualLab Fusion more productive and enjoyable!
08 – 09 September 2021
17:00 – 20:30 (CEST)
(postponed Training from July 2021)
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This interactive online training shows how to use the corresponding technologies from VirtualLab Fusion to solve practical grating modeling and design tasks for modern optics applications.
04 – 07 October 2021
08:30 – 12:00 (CEST)
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„VirtualLab Fusion offers excellent opportunities in research projects and is perfect for use in teaching, especially since there are many documented application examples available.“
Prof. Dr. Stefan Kontermann, Hochschule RheinMain
Nowadays ray tracing is not sufficient anymore. For a detailed analysis physical optics is required. VirtualLab Fusion is optimized for wave-optical simulations. The results we achieved are excellent. We can highly recommend VirtualLab Fusion. Not only the software is great, but also the support of the whole LightTrans team.
Dr. Benjamin Heck, Raylase GmbH
Excellent program, amazing capabilities, and very user-friendly interface.
Galina Machaviariani, Apple
VirtualLab Fusion is a very promising software that is helping in solving some peculiar diffraction issues that have been causing headaches to the community.
Federico Landini, INAF – Osservatorio Astrofisico di Arcetri
This is one of the most elaborate pieces of software I’ve ever had the pleasure of working with. My workflow now is not only faster and more pleasant, but also very well documented with little to no effort on that point.
Dr. Fabian Patrovsky, CDA GmbH
Anisotropic media, and crystals in particular, have long been linchpin components for various applications, including lasers and display technologies.
A HIGHLIGHT OF THE LATEST RELEASE, 2021.1
For the design, simulation and optimization of such kind of optical setups, VirtualLab Fusion provides a fast and rigorous electromagnetic field solver
that models the propagation of the electromagnetic field through anisotropic media, including polarization effects like conical refraction and birefringence.
Multimode fibers are an integral part of most optical communication technologies. For a sound modeling of such structures, accurate propagation of the fiber modes and their interference is necessary. In VirtualLab Fusion it is possible to use Bessel and Laguerre Polynomials to describe the fiber modes, for single-core fibers as well as graded-index ones. The resulting modes can then also be propagated while considering additional effects like e.g. atmospheric turbulence.Read more
The new version 2021.1 provides our users with solutions for more applications. Also we come with a new workflow which enables a seamless transition from ray to full
physical-optics modeling. This way we simplify the usage of the amazing modeling features in VirtualLab Fusion.