LightTrans

What’s new in our Optical Modeling and Design Software?

Thermal Lens and Stress-Induced Birefringence

[July 30, 2018]
It is vital in design to be able to include in your simulation not only those properties or components that play an intentional, wanted role in the system, but also, and with particular care, those effects which have the potential to interfere with its intended purpose, in order to quantify and, if possible, avoid them. Below we show two examples of VirtualLab’s potential in this area: all thanks to its fast and accurate approach, and an interface that allows you both to import measured data (from, e.g., ANSYS) or to include the effects via readily available or customized mathematical models.
[July 30, 2018]

It is vital in design to be able to include in your simulation not only those properties or components that play an intentional, wanted role in the system, but also, and with particular care, those effects which have the potential to interfere with its intended purpose, in order to quantify and, if possible, avoid them.

 

Below we show two examples of VirtualLab’s potential in this area: all thanks to its fast and accurate approach, and an interface that allows you both to import measured data (from, e.g., ANSYS) or to include the effects via readily available or customized mathematical models.

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Construction and Modeling of Graded-Index Media

[July 30, 2018]
Graded-index, or GRIN, media are employed in optics to construct, among other components, lenses and multimode fibers. In VirtualLab you can easily choose to include GRIN media as part of your optical system, as it includes a fast and accurate modeling technique accompanied by a user-friendly interface that makes setting up the GRIN component a really easy task.
[July 30, 2018]

Graded-index, or GRIN, media are employed in optics to construct, among other components, lenses and multimode fibers. In VirtualLab you can easily choose to GRIN media as part of your optical system, as it includes a fast and accurate modeling technique accompanied by a user-friendly interface that makes setting up the GRIN component a really easy task.

Find out more through our examples below!

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Investigation of Fields in Focal Region

[July 30, 2018]
It is of importance to understand how the field evolves when it propagates through the focal region along the optical axis. In VirtualLab Fusion, by using the Parameter Run, it allows a scanning of the field at any plane of interest, and thus you may have access to the complete electromagnetic field information within the focal region. Particularly, all the possible vectorial effects due to high-NA focusing are taken into account.
[July 30, 2018]

It is of importance to understand how the field is evolving during the propagation through the focal region along the optical axis.

In VirtualLab Fusion, with the Parameter Run, it is possible to perform a scan of the field along a succession of planes, and thus to have access to the complete information of the electromagnetic field inside the focal region. Particularly, all eventual vectorial effects due to high-NA focusing are taken into account.

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VirtualLab Fusion Training Course - Jena, Germany

[July 10, 2018]
VirtualLab Fusion Training Course
[July 10, 2018]

<b>Jena, Germany - September</b>

Learn from our optical engineering experts how to use VirtualLab Fusion efficiently. Register for both courses or only one, depending on your own previous experience working with VirtualLab.

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Beyond Ray Tracing: Optical Design with Fast Physical Optics

[June 12, 2018]
In the seminar VirtualLab modeling techniques will be discussed. Together with the seminar participants we will select the applications and software use cases of most interest. Send us your topics of interest alongside your registration!
[June 12, 2018]

Innovative Optical Design with Fast Physical Optics

FREE VirtualLab Fusion Seminar

* * *

5 JULY 2018
HOCHSCHULE RHEINMAIN, GERMANY
Rüsselheim Campus, Room A - 009

* * *

Come to our free seminar to discover the fast physical optics concept, how to benefit from it through our user-friendly GUI, and to get an overview of what it can provide in a wide-ranging set of applications!

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Design and Analysis of Laser Systems

[May 17, 2018]
Physical-optics based modeling techniques are necessary for the successful design and analysis of a laser system. With its second-generation field tracing technique, VirtualLab Fusion constitutes a suitable tool to perform an efficient evaluation of laser systems.
[May 17, 2018]

Lasers and laser systems play an indispensable role in modern life. They can be found in various applications such as laser material processing, metrology, monitoring, lighting, and so on. Physical-optics based modeling techniques are necessary for the successful design and analysis of a laser system. With its second-generation field tracing technique, VirtualLab constitutes a suitable tool to perform an efficient evaluation of laser systems. We demonstrate, as examples, the collimation of a laser diode with astigmatism and a laser scanning system.

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Multi-Path Optical Systems and VirtualLab Fusion Technologies

[April 27, 2018]
With the non-sequential extension, a multi-path optical systems can be easily set up and modeled in a more convenient way in VirtualLab Fusion.
[April 27, 2018]

Interferometry techniques are widely used in many fields, such as astronomy, metrology, and quantum mechanics. In an interferometer, the incoming light is split into two (or even more) beams. The split beams will travel along different paths which eventually overlap, their superposition generating an interference pattern which can be used for further analysis. Now, with the non-sequential extension, such multi-path optical systems can be easily set up and modeled in a more convenient way in VirtualLab.

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info (at) lighttrans.com

 

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