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VirtualLab Fusion

Discover a unique optical design software with ray tracing tools and fast physical optics modeling.

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Our experts answer customer's questions regarding our VirtualLab Fusion software.

Exhibition

OASIS 8

12 – 13 December 2022 | 08:00 – 17:45 (UTC+2)
David InterContinental Hotel in Tel Aviv

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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

What's new?

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System Analysis for Astronomy

[November 29, 2022]
VirtualLab Fusion offers the optical engineer multiple tools, ranging from quick system visualization, to a fully physical-optics propagation of light.
[November 29, 2022]

The methodical observation of astronomic phenomena is one of the oldest forms of optics. Over time, ever more advanced telescopes and other related optics have been developed to give scientists an ever deeper look into our galaxy and the universe.

To analyze the performance of such systems, the fast physical optics modeling and design software VirtualLab Fusion offers the optical engineer multiple tools, ranging from quick system visualization based on ray tracing, to a fully electromagnetic physical-optics propagation of light, including diffractive phenomena.

To showcase the potential of VirtualLab Fusion in the field of astronomy, we highlight the following two use cases this week: The first one presents a full model of the famous Schmidt-Cassegrain telescope, including a discussion of the effects of the Schmidt-Plate. In the second use case we simulate different afocal systems for laser guide stars, based on the work from L. Clermont, et al., "Design of a laser guide star for applications to adaptive optics".

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Grating Optimization and Analysis

[November 22, 2022]
Gratings are some of the most fundamental tools in the arsenal of any optical engineer.
[November 22, 2022]

Gratings are some of the most fundamental tools in the arsenal of any optical engineer. To design and analyze this kind of component, the fast physical optics modeling and design software VirtualLab Fusion provides its users with many helpful tools. These include the Parametric Optimization, to easily optimize your systems, and the Parameter Run, which allows you to perform parameter sweeps in order to study the influence of those parameters on the overall behavior of the setup. Furthermore, this enables the use to investigate effects introduced by deviations due to specific fabrication processes in detail. Different solvers are also put at your disposal for the simulation of the interaction of the field with the grating, with different assumptions and the corresponding levels of approximation. These range from the rigorous Fourier Modal method (FMM) to the Thin Element Approximation (TEA), which works well for larger structures with a shallow relief.

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Aberrations in Optical Imaging Systems

[November 15, 2022]
For this week’s newsletter, we have selected two examples related to aberrations.
[November 15, 2022]

The main functionality of an imaging system is to gather as much of the light emanating from each of the object points as possible, and to make those cones of light converge again at the image plane, so that each object point is mapped univocally to its counterpart in the image plane. The performance of such systems is generally judged on the basis of how well this correspondence between object and image points is maintained, with the well-known theoretical limit imposed by the phenomenon of diffraction: even in an optical system that, according to the laws of geometrical optics, will map all the rays coming from one object point exactly to a single, mathematical, image point, diffraction will cause that image point to smear into a small, but finite-sized, spot. This diffraction-limited situation is what the design of an imaging system typically aims for, with the diffraction-limited field having a spherical wavefront. Geometrical deviations from this spherical wavefront are known as “aberrations”, and are characterized using different polynomial bases that help quantify their strength and shape. The presence of aberrations will increase the smearing of the image spot and consequently decrease the quality of the imaging system.

With the fast physical optics software VirtualLab Fusion aberration effects can be studied well. For this week’s newsletter, we have selected two examples related to aberrations: the first, of how the typical wavefront aberrations affect the pattern in focus of a spherical wave, and the second, of how the astigmatism of a high-power laser diode influences performance in the focal region. Using the free space propagation field solver and the Local Plane Interface Approximation (LPIA), diffraction, polarization and vectorial effects that can potentially degrade an image can all be included in the investigation.

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