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PRODID:-//AT Content Types//AT Event//EN
VERSION:1.0
BEGIN:VEVENT
DTSTART:20051114T090000Z
DTEND:20051115T180000Z
DCREATED:20051129T165307Z
UID:ATEvent-dca1a3e1ccee0693d88735638674ddf7
SEQUENCE:0
LAST-MODIFIED:20051129T165307Z
SUMMARY:Optical Design of Lasers using Zemax
DESCRIPTION:Two days intensive course in English  Registration form and further information  Course Contents  The ZEMAX Interface  - Sequential ZEMAX  - Aperture, Wavelength and Field selection  Optical Theory  - The paraxial model  - Example: A Paraxial Lens  - Marginal and chief rays  - The stop, entrance and exit pupils  - Diagnostic Tools in the Analysis  - Example: Using the paraxial model to demonstrate ideal performance  Optimization  - Example: Introduction to optimization, using a doublet lens example  - How ZEMAX Optimizes  - Definition of the merit function  - Normalised coordinates  - Local minima  - Merit function operands  - Global optimisation  Apodization  - Varying the uniformity of illumination in the pupil  Afocal beam expander  - Designing for afocal output  - Using lens catalogs  - Using the Multi-Configuration editor  The Glass Catalog  - Glass dispersion formulas  - Selecting glass catalogs and glass map  - Example: Adding New Glass Types  Coordinate Breaks  - Using the Global Vertex Report  - Example: The dispersive prism  Polarisation Ray Tracing and Thin Film Coatings  - The Jones Matrix  - Reflection and Transmission  - Coating definitions  - The polarisation pupil map  Birefringence  - The birefringent surface type  - Phase rotation  - A waveplate  Laser Beam Propagation  - Properties of Gaussian Beams  - Example: Using the Paraxial Gaussian Beam analysis feature  - Example: Using the Skew Gaussian Beam analysis feature  Physical Optics Propagation  - Geometrical vs physical optics  - The fresnel number  - Near and far field propagation  - The pilot beam  - Examples: Free Space Propagation  Frensel Numbers and Talbot   Imaging  -The Rayleigh range  -Probing rays  -POP beam definitions  -Example: A Spatial Filter  -Example: A Fresnel Zone Plate Lens   Participation fee:  Members of the German competence networks for Optical Technologies: 680 Euro + tax.  Non-members: 880 Euro + tax.  Courseware, two luncheons, coffe, cake and beverages are included in the participation fee.  Contributor: Jenny Warwick  General Manager Optima Research   
LOCATION:Gesellschaft für Schwerionenforschung, Darmstadt
PRIORITY:3
TRANSP:0
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