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Seminar - Physical Optics Modeling with FRED

Reference: PHE-FRED-Physical-Optics-Modelin

Photon Engineering’s tutorial on Physical Optics Modeling (POM) is an intensive 3-day instruction covering wave propagation, polarization, interference, diffraction and partial coherence as they relate to applications in optical engineering.



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Axel Haunholter
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+49 8153 405-32
a.haunholter@laser2000.de
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Andreas Bichler
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+49 8153 405-48
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Product request: Seminar - Physical Optics Modeling with FREDX



Dear Herr Bichler,

I am interested in the following product: Seminar - Physical Optics Modeling with FRED


I am interested in:

an offer
Information material
a call back and consulting
Please complete at least the mandatory fields marked with *.



* Title:

Academic Degree:

First Name:

* Last Name: * Last Name:

* Company Name: * Company Name:

Company Address:

* Street: * Street:

* Zip Code: * Zip Code:

* City: * City:


* E-Mail: * E-Mail:

* Phone: * Phone:

Text:




* What do you see in picture 2?* What do you see in Picture 2?

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Please check red marked fields.




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Product description

Physical Optics Modeling with FRED - An Advanced FRED Tutorial

Physical optics modeling requires propagating optical wave fields from a specific radiometric source through complex systems of apertures and reflective or refractive optical components, or even complete instruments or devices, usually to a focal plane or sensor. The model must accurately include the interference and diffraction effects allowed by the polarization and coherence characteristics of both the initial optical wave field and the components and media through which it passes. This short course is taught with an emphasis on the complex ray-tracing of Gaussian beams implemented in FRED although many of the concepts and techniques are generic to other similar software packages.

General Information

Dates:


Attendance fee:

including coffee breakes, drinks and lunch

Price for 3 days tutorial EUR 1999,- + 19% VAT


Place of training:

BEST WESTERN Hotel Cristal, Schwanthalerstraße 36, 80336 Munich


Instructors:

The Seminar is held by an Optical Engineer from Photon Engineering.



Deadline for registration:

 05.04.2016


Topics covered in the Physical Optics Modeling tutorial


  • Introduction
    • Hierarchy of Optical Theories
    • Description of Physical Optics
 
  • Mathematical Description of Optical Wave Fields
    • Maxwell’s Equations
    • Poynting Vector and Irradiance
    • Plane Waves / Spherical Waves
 
  • Fundamentals of Radiometry
  • The Characteristics of Gaussian Beam
    • Gaussian Spherical Wave Characteristics
    • Far-field Divergence and Beam Width
    • Gaussian Beam Focusing Behavior
 
  • Propagation of Gaussian beams by Complex Raytracing
    • The ABCD Law of Gaussian Beam Propagation
    • Rules of Complex Ray-tracing
    • Accuracy of Complex Ray-tracing (FRED)
    • Truncation of a Gaussian Beam (FRED)
 
  • EM Waves as a Superposition of Gaussian Beams
    • Diffraction Calculations by Complex Ray-tracing
    • Rules for Decomposition into Gausian Beamlets
    • Modeling Classical Interference with FRED
    • Modeling Fraunhofer Diffraction with FRED
    • Diffraction from Truncated Laser Beams (FRED)
    • Advantages & Limitations of Complex Raytracing
 
  • Modeling Physical Optics Phenomena with FRED
    • Fresnel Diff. Patterns from Apertures
    • Propagation of Laser Diode Beam
    • Modeling Bessel (non-diffracting) Beams
    • Pulse Propagation
    • Spatial Filtering
    • Optical Fiber Coupling Efficiency
    • Modeling Speckle Effects
    • Propagation thru Turbulence
    • Modeling Polarization Effects with FRED
    • Modeling Partial Coherence Effects with FRED
 
  • Modeling Advanced Optical Systems with FRED
    • Refracting Imaging Systems
    • Reflecting Imaging Systems (wo/w scatter)
    • Modeling Interferometers with FRED
    • Michelson Interferometer
    • Fabry-Perot Interferometer
    • Mach-Zehnder Interferometer
    • Fizeau Interferometer
    • Shearing Interferometer
    • Point Diffraction Interferometer

Requirements for the Physical Optics Modeling tutorial

Attendees should have a rudimentary knowledge of geometrical and physical optics and must be knowledgeable users of FRED. Attendees must also have knowledge of the BASIC programming language or general familiarity with computer programming prior to attending. The course begins with basic concepts and develops the relevant language and theory of physical optics followed by numerous practical examples demonstrated in FRED.

Note

Registrations or cancellations are only accepted in written form. For cancellation of the written registration before deadline of registration half of the attendance fee will be credited. The attendance fee will not be credited if we receive the cancellation after the deadline for the registration. 


Laser 2000 reserves the right to cancel the tutorial.


After your registration you will receive a confirmation. The invoice will be sent to the company address via post, if there is no other instruction on your registration. 


We are looking forward to welcome you at the FRED training.


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