Exhibitions and Seminars Archives

VirtualLab Fusion Technology and Applications Paris

09 April 2019
Paris - Cedex, Créteil, France
Valeo Headquarters

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 while providing all optical quantities and measures of concern with acceptable accuracy. A software package that yields fast physical optics simulation results alongside ray tracing then becomes, not a choice, but a necessity. Discover the Fast Physical Optics concept with VirtualLab Fusion by means of seminar modules on technology and different applications. Join a specific module that you are interested in or stay for the lot, according to your preferences.

Seminar Schedule:

Overview: VirtualLab Fusion Technology
09:00 – 10:00

• Understanding the limitations of ray optics modeling for innovative optical systems and the necessity of physical optics in typical cases of modern optics.
• Discovering how field tracing technology overcomes common challenges of numerical complexity in physical optics computations.

Application I: Interferometry
10:00 – 10:45

• Configuring various interferometric setups in VirtualLab Fusion, including Mach-Zehnder and Michelson interferometers.
• Usage of non-sequential field tracing to simulate interference patterns including coherence and polarization.

Application II: Microscopy
11:00 – 11:45

• Setting up different types of microscopes in VirtualLab Fusion including different source models.
• Physical optics modeling of vectorial PSF, MTF and image simulations for microstructured samples.

Application III: Fiber Coupling
12:00 – 12:45

• Design of lens systems for high-NA fiber coupling by parametric optimization.
• Physical optics analysis of coupling efficiency and investigation of the influence of tolerances on the efficiency.

VirtualLab Fusion Technology and Applications Tel Aviv

03 April 2019
Tel Aviv, Israel
Hotel Dan Panorama Tel Aviv

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 while providing all optical quantities and measures of concern with acceptable accuracy. A software package that yields fast physical optics simulation results alongside ray tracing then becomes, not a choice, but a necessity. Discover the Fast Physical Optics concept with VirtualLab Fusion by means of seminar modules on technology and different applications. Join a specific module that you are interested in or stay for the lot, according to your preferences.

Seminar Schedule:

Overview: VirtualLab Fusion Technology
9:00 – 10:00

• Understanding the limitations of ray optics modeling for innovative optical systems and the necessity of physical optics in typical cases of modern optics.
• Discovering how field tracing technology overcomes common challenges of numerical complexity in physical optics computations.

Application I: Interferometry
10:00 – 10:45

• Configuring various interferometric setups in VirtualLab Fusion, including Mach-Zehnder and Michelson interferometers.
• Usage of non-sequential field tracing to simulate interference patterns including coherence and polarization.

Application II: Microscopy
11:00 – 11:45

• Setting up different types of microscopes in VirtualLab Fusion including different source models.
• Physical optics modeling of vectorial PSF, MTF and image simulations for microstructured samples.

Application III: Fiber Coupling
12:00 – 12:45

• Design of lens systems for high-NA fiber coupling by parametric optimization.
• Physical optics analysis of coupling efficiency and investigation of the influence of tolerances on the efficiency.

OASIS 7 – Exhibition on Optics and Electro-Optics | Tel Aviv, Israel 1 – 2 April 2019

1 – 2 April 2019
Tel Aviv, Israel
OptecNet community booth #17

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

After the exhibition we offer the chance to take part in the following LightTrans event:

• VirtualLab Fusion Technology and Applications: Interferometry, Microscopy and Fiber Coupling
  Free VirtualLab Fusion Seminar
  Date: Wednesday, 3 April 2019 | 09:00 – 13:00
  Location: Dan Panorama Tel Aviv Hotel, Tamar Hall, Kaufmann St 10, Tel Aviv-Yafo, Israel

In addition, we will give two talks at the conference:

• A k-domain method for fast propagation of electromagnetic fields through graded-index media
  Date & time: 1 April | 12:30 – 12:45
  Location: Hall A (Session 1)
   
• Optimization of Coupling Gratings for Lightguide-Based Displays
  Date & time: 1 April | 17:00 – 17:15
  Location: Hall A (Session 3)
   

And please take a look at our posters:

• Modeling of Diffractive/Meta-Lenses using Fast Physical Optics
  Date & time: 1 April 2019 | 10:55 – 11:25
  Location: Poster area
   
• Vectorial physical-optics modeling of interaction of tightly focused beam with nanoparticle
  Date & time: 1 April 2019 | 10:55 – 11:25
  Location: Poster area

Visit the exhibition website.

VirtualLab Fusion Technology and Applications Wetzlar

27 February 2019
Wetzlar, Germany
Rittal Arena

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 while providing all optical quantities and measures of concern with acceptable accuracy. A software package that yields fast physical optics simulation results alongside ray tracing then becomes, not a choice, but a necessity. Discover the Fast Physical Optics concept with VirtualLab Fusion by means of seminar modules on technology and different applications. Join a specific module that you are interested in or stay for the lot, according to your preferences.

Seminar Schedule:

Overview: VirtualLab Fusion Technology
9:00 – 10:00

• Understanding the limitations of ray optics modeling for innovative optical systems and the necessity of physical optics in typical cases of modern optics.
• Discovering how field tracing technology overcomes common challenges of numerical complexity in physical optics computations.

Application I: Interferometry
10:00 – 10:45

• Configuring various interferometric setups in VirtualLab Fusion, including Mach-Zehnder and Michelson interferometers.
• Usage of non-sequential field tracing to simulate interference patterns including coherence and polarization.

Application II: Microscopy
11:00 – 11:45

• Setting up different types of microscopes in VirtualLab Fusion including different source models.
• Physical optics modeling of vectorial PSF, MTF and image simulations for microstructured samples.

Application III: Fiber Coupling
12:00 – 12:45

• Design of lens systems for high-NA fiber coupling by parametric optimization.
• Physical optics analysis of coupling efficiency and investigation of the influence of tolerances on the efficiency.

W3 FAIR + CONVENTION | Wetzlar, Germany 25 – 26 February 2019

25 – 26 February 2019
Wetzlar, Germany
Thuringian community booth, E18a

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.

Do not miss:

• Design and optimization strategy of incoupling gratings for near-eye displays
  Key note in the exhibition program
  Date: 26 February 2019
  Location: Rittal Arena
   
• VirtualLab Fusion Technology and Applications: Interferometry, Microscopy and Fiber Coupling
  Free VirtualLab Fusion Seminar
  Date: Wednesday, 27 February 2019 | 09:00 – 13:00
  Location: Conference Room, Rittal Arena

Visit the exhibition website.

VirtualLab Fusion Technology and Applications Vienna

19 February 2019
Vienna, Austria
BioCenter 5, University of Vienna

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 while providing all optical quantities and measures of concern with acceptable accuracy. A software package that yields fast physical optics simulation results alongside ray tracing then becomes, not a choice, but a necessity. Discover the Fast Physical Optics concept with VirtualLab Fusion by means of seminar modules on technology and different applications. Join a specific module that you are interested in or stay for the lot, according to your preferences.

Seminar Schedule:

Overview: VirtualLab Fusion Technology
9:00 – 10:00

• Understanding the limitations of ray optics modeling for innovative optical systems and the necessity of physical optics in typical cases of modern optics.
• Discovering how field tracing technology overcomes common challenges of numerical complexity in physical optics computations.

Application I: Interferometry
10:00 – 10:45

• Configuring various interferometric setups in VirtualLab Fusion, including Mach-Zehnder and Michelson interferometers.
• Usage of non-sequential field tracing to simulate interference patterns including coherence and polarization.

Application II: Microscopy
11:00 – 11:45

• Setting up different types of microscopes in VirtualLab Fusion including different source models.
• Physical optics modeling of vectorial PSF, MTF and image simulations for microstructured samples.

Application III: Fiber Coupling
12:00 – 12:45

• Design of lens systems for high-NA fiber coupling by parametric optimization.
• Physical optics analysis of coupling efficiency and investigation of the influence of tolerances on the efficiency.

Beyond Ray Tracing San Francisco 08 Feb 19

08 February 2019
San Francisco, CA 94103, USA
49 Geary Street

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 to get an overview of what it can achieve in a wide-ranging set of applications!

Seminar Schedule:

Concepts, techniques, and customization
9:00 – 12:00

• 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
13:00 – 16:00

• 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 see

VirtualLab Fusion Technology and Applications San Francisco

07 February 2019
San Francisco, CA 94103, USA
49 Geary Street

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 while providing all optical quantities and measures of concern with acceptable accuracy. A software package that yields fast physical optics simulation results alongside ray tracing then becomes, not a choice, but a necessity. Discover the Fast Physical Optics concept with VirtualLab Fusion by means of seminar modules on technology and different applications. Join a specific module that you are interested in or stay for the lot, according to your preferences.

Seminar Schedule:

Overview: VirtualLab Fusion Technology
9:00 – 10:00

• Understanding the limitations of ray optics modeling for innovative optical systems and the necessity of physical optics in typical cases of modern optics.
• Discovering how field tracing technology overcomes common challenges of numerical complexity in physical optics computations.

Application I: Interferometry
10:00 – 10:45

• Configuring various interferometric setups in VirtualLab Fusion, including Mach-Zehnder and Michelson interferometers.
• Usage of non-sequential field tracing to simulate interference patterns including coherence and polarization.

Application II: Microscopy
11:00 – 11:45

• Setting up different types of microscopes in VirtualLab Fusion including different source models.
• Physical optics modeling of vectorial PSF, MTF and image simulations for microstructured samples.

Application III: Fiber Coupling
12:00 – 12:45

• Design of lens systems for high-NA fiber coupling by parametric optimization.
• Physical optics analysis of coupling efficiency and investigation of the influence of tolerances on the efficiency