Webinars

A Case Study On Metalenses

Let's Talk About Metalenses

29 May 2024 | 16:00 (CEST)
Online

Register here

In the webinar, Frank Wyrowski will discuss considerations such as the design and modeling of metalenses and the procedures for replacing a smooth lens surface with a flat one.

The use of metalenses in lens systems results in a multi-scale configuration that requires the use of sophisticated simulation methods to ensure an appropriate balance between simulation accuracy and speed.

Diffractive Beam Splitter & Light Diffuser

Watch the Webinar on Demand.

Modeling and Design of Meta Structures

Watch the Webinar on Demand.

New VirtualLab Fusion 2023.2!

We are proud to announce the release of the latest version of the optical modeling and design software VirtualLab Fusion, 2023.2!

The signature technology of VirtualLab Fusion is its interoperability of modeling techniques on a single software platform, which allows you to have full control of the balance between accuracy and speed that is always an unavoidable aspect of simulation technology. Version 2023.2 expands on this concept, pursuing the development goals we have set ourselves to offer ever higher speed, easier use, more physics, deeper transparency, and more control.

In this webinar we will be giving a rundown of the most prominent features of this latest version, chief among them:

• The Distributed Computing Package: the perfect tool to tremendously increase simulation speed in complex tasks composed of a large set of individual elementary simulations, and
• The Parameter Variation Analyzer: which enables the detailed analysis of multiplexed systems by flexible evaluation of parameter sweeps and definition of customized merit functions.

There are of course many other novelties to look forward to in VirtualLab Fusion 2023.2!
You can find an exhaustive list in the:

Release Notes

Optical Design of AR/MR Devices

13 June 2023
10:00 – 11:00 or 18:00 – 19:00 (CEST)
Free Webinar
 

The design of optical devices for augmented and mixed reality (AR & MR) epitomizes the most important challenges that one must unavoidably face in the modeling and design process of complex optical systems for modern applications: striking a delicate balance between accuracy and speed, while retaining the flexibility as a user to adjust said balance as necessary.

Complex physical effects like the interference between overlapping beam footprints and how it affects eye-box uniformity, the coherence properties of the employed source, the entanglement between the initial polarization state of the light that enters the system and the vectorial effects introduced by the different components in the system, or the influence of diffraction on the point spread function/modulation transfer function of the device up to and including the human eye, are just a handful of examples of complex physical phenomena which couple together in an AR/MR waveguide to influence the final performance of the device.

Being able to include all these effects (and many more!) when required, while at the same time ensuring that the simulation remains as fast as possible, is exactly what the software VirtualLab Fusion offers through its flexible combination of interoperable modeling techniques on a single platform. And you always remain in the driving seat, with full control of the simulation parameters, so that you can strike the balance that you need.

Join our webinar to not only see what VirtualLab Fusion is already capable of in the field of AR & MR, but also to get a sneak peek at the exciting upcoming features, like the Distributed Computing Toolbox and the Optimization Toolbox!

You will afterwards surely agree with us when we say:

"VirtualLab Fusion. As accurate as needed. As fast as possible."