FREE VirtualLab Fusion Seminar - Beyond Ray Tracing: Innovative Optical Design with Fast Physical Optics

Modern optical technology has so branched out from traditionally understood lens systems that ray optics often falls short when it comes to simulating and designing cutting-edge optical systems with acceptable accuracy. A software package that yields fast physical optics simulation results alongside ray tracing then becomes, not a choice, but a necessity. This is precisely what VirtualLab Fusion offers: come to our free seminar to discover the fast physical optics concept, how to benefit from it through our user-friendly GUI, and an overview of what it can provide in a wide-ranging set of applications!

Here you can find the flyer. This workshop is free of charge for you.

Seminar Schedule

Concepts, techniques, and customization
9:00 am - 12:00 am

  • Introduction to the theory and concepts of fast physical optics
  • Modeling techniques in VirtualLab Fusion
  • Design methods for diffractive, refractive, and hybrid optical components and systems
  • VirtualLab Fusion user-interface concept, tools, customization and programming

 

Applications and software demonstrations
1:00 pm - 4:00 pm

  • Discussion and demonstration of application examples out of a collection of numerous VirtualLab Fusion use cases
  • Insights into the functionality and usage of VirtualLab Fusion through use cases
  • Questions & answers on how VirtualLab Fusion can provide the solution you seek

 

VirtualLab Fusion Technologies

In the seminar we will discuss VirtualLab's modeling techniques - a very general approach to optical modeling facilitates the combination of many different tools in a single platform.

  • Lasers, LD, VCSEL and LED sources, fs pulses
  • Aberration and PSF/MTF
  • Radiometric and photo-metric detectors
  • Diffraction integrals
  • Fast k-domain operators
  • RCWA grating modeling
  • Local Maxwell solvers
  • Thin element approximation (TEA)
  • Beam propagation method (BPM)
  • Coating S matrix
  • GRIN media solver
  • Crystal modeling
  • Waveguide solver
  • Mie scattering
  • IFTA design algorithm
  • Parametric optimization
  • Interpolation techniques
  • Optimization options and investigations of parameter variations

 

VirtualLab Fusion Applications


Together with the seminar participants we will select the applications and software use cases of most interest. The application examples include but are not restricted to:

  • Laser beam delivery, scanning, LIDAR systems
  • Freeform surfaces for imaging and light shaping
  • Diffractive, Fresnel and meta-lens modeling and design
  • Ghost image investigation
  • High-NA diffractive beam splitting
  • Diffractive diffuser for illumination
  • Shaping light of VCSEL arrays
  • Microlens arrays
  • Spatial light modulators
  • Microscopy
  • Spectroscopy
  • Telescopes
  • Interferometry
  • Grating optimization
  • Fiber coupling
  • AR/MR/VR/HUD systems

Please note that we have to inform you according to applicable law that your contact details of the registration will be handed over to LightTrans International UG (Kahlaische Straße 4, 07745 Jena, Germany) in order to optimize this workshop specifically for you and your needs. After your registration you will be contacted by LightTrans in order to adjust the topics of this workshop.

PhotonicNet GmbH merely organizes this workshop. LightTrans International UG is responsible for the content design.

For further questions regarding the topics of this workshop please contact LightTrans International UG

Phone: +49 3641 53129 0
Mail: info(at)lighttrans.com
Web: www.lighttrans.com

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Logo PhotonicNet GmbH

Datum
14.11.2018    09:00 Uhr - 16:00 Uhr

Stadt
Hannover

Veranstaltungsort
SICAN Technologiepark, Garbsener Landstraße 10, 30419 Hannover

Veranstalter
PhotonicNet GmbH
Garbsener Landstraße 10, D 30419 Hannover

Telefon
+49 (0)511-277-1640

Fax
+49 (0)511-277-1650

E-Mail
veranstaltung(at)photonicnet.de

Preis (zzgl. MwSt.)
Nicht-Mitglied: 0,00 €
Mitglieder: 0,00 €

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