Find out more about us!
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.
Find out more!
all upcoming news and events
28 April 2021
10:00 – 17:00 (CEST)
Save Your Slot
„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
Register now for our Webinar on 20 April and for our Online Training "Getting Started with VirtualLab Fusion" on 17 – 18 May 2021 | 08:30 – 11:30 (CEST) or 19 – 20 May 2021 | 17:30 – 20:30 (CEST).
In April and May you have the chance to attend our virtual events and online trainings. Register now and save your seat!
VirtualLab Fusion Webinar | 20 April
10:00 – 11:00 and 18:00 – 19:00 (CEST)
Getting Started with VirtualLab Fusion Online Training
17 – 18 May 2021 | 08:30 – 11:30 (CEST)
19 – 20 May 2021 | 17:30 – 20:30 (CEST)
In this newsletter, we seek to illustrate the intuitive mindset behind VirtualLab Fusion’s infrastructure which helps many users around the globe in facilitation of data processing.
Data arrays are the most fundamental native data type in VirtualLab Fusion. Such a data type may be instantiated on either an equidistant or a non-equidistant grid. Being a generic data type, they are among the most flexible data types as to introducing physical attribute, re-sampling and interpolation. Array computing is made easy thanks to VirtualLab Fusion’s user-friendly GUI where users could perform operations without writing for-loops. Furthermore, data visualization and analysis are done on GUI level as well, meaning that the users could configure graph settings in the property browser or extract and analyze data locally by the selection tools in VirtualLab Fusion. In this short video, we seek to illustrate the intuitive mindset behind VirtualLab Fusion’s infrastructure which helps many users around the globe in facilitation of data processing.
In this newsletter we show you how VirtualLab Fusion with its fast physical-optics technology allows for an inclusion of complex elements in the simulation of your optical system and enables the detailed analysis of relevant effects.
In modern optical systems very different kinds of elements are used in order to push the limits of our manipulation of light further and further. New elements are developed and traditional devices are steadily improved to obtain the desired functionality and performance, which not seldom increases the level of complexity of these components and the entire systems. VirtualLab Fusion with its fast physical-optics technology, that is based on the flexible and automatic connection of different field solvers, allows for an accurate modeling of your optical system and enables the detailed analysis of relevant effects.