VirtualLab Fusion, with its Summer Release 2019, provides a complete workflow for the design and analysis of diffractive lenses.

Diffractive lenses show great potential in various modern optical applications. VirtualLab Fusion, with its Summer Release 2019, provides a complete workflow for the design and analysis of diffractive lenses. It starts with the functional design of the wavefront phase response, which can also, alternatively, be imported from e.g. Zemax OpticStudio^®, then includes the actual microstructured lens surface into the modeling, and supports the export of the lens structure for fabrication. As an example, the design and analysis of an intraocular lens is shown.

This is a great chance for you to meet our technical experts and sales representatives for a discussion about the various application possibilities of the Fast Physical Optics Software VirtualLab Fusion.

At the upcoming exhibition and conferences in the USA you have the opportunity to meet our technical experts and sales representatives at our booth and attend multiple talks.

Microscopy & Microanalysis Meeting 2019, Portland, OR, USA | 4 – 8 August
SPIE Optics and Photonics, San Diego, CA, USA | 11 – 15 August

For ultrashort pulse applications it is important to understand the mechanism of pulse broadening, and even to control it. As examples, we demonstrate how material dispersion and diffraction gratings can affect the pulse behavior.

Ultrashort laser pulses show a potential for high-precision material processing. However, such pulses may broaden due to the wide spectrum that corresponds to the ultrashort temporal duration. For ultrashort pulse applications it is important to understand the mechanism of pulse broadening, and even to control it. As examples, we demonstrate how material dispersion and diffraction gratings can affect the pulse behavior.