Prof. Frank Wyrowski
Professor at
SPIE Involvement:
Board of Directors | Engineering, Science, and Technology Policy Committee | Membership & Communities Committee | Strategic Planning Committee | Symposia Committee | Fellow status | Conference Chair | Conference Program Committee | Editor | Author | Instructor
Publications (103)

SPIE Conference Volume | July 25, 2016

PROCEEDINGS ARTICLE | May 9, 2016
Proc. SPIE. 9889, Optical Modelling and Design IV
KEYWORDS: Crystals, Laser crystals, Nonlinear crystals, Polarization, Geometrical optics, Refraction, Nonlinear optics, Optical simulations, Spiral phase plates, Polarizers

PROCEEDINGS ARTICLE | March 18, 2016
Proc. SPIE. 9700, Design and Quality for Biomedical Technologies IX
KEYWORDS: Prisms, Microscopy, Polarization, Geometrical optics, Digital image correlation, Electromagnetism, Modeling, Birefringence, Crystals, Crystal optics, Radio propagation, Ray tracing, Interfaces, Calcite

PROCEEDINGS ARTICLE | March 8, 2016
Proc. SPIE. 9764, Complex Light and Optical Forces X
KEYWORDS: Crystals, Optical simulations, Anisotropy, Bessel beams, Polarization, Laser crystals, Birefringence, Refraction, Spiral phase plates, Optical vortices, Geometrical optics, Polarizers, Crystallography

SPIE Conference Volume | October 23, 2015

PROCEEDINGS ARTICLE | October 8, 2015
Proc. SPIE. 9793, Education and Training in Optics and Photonics: ETOP 2015
KEYWORDS: Diffractive optical elements, Ray tracing, Diffraction, Radio propagation, Eye models, Systems modeling, Sensors, Optical components, Optical simulations, Refractive index

Showing 5 of 103 publications
Conference Committee Involvement (34)
Computational Optics 2018
14 May 2018 | Frankfurt, Germany
Digital Optics for Immersive Displays (DOID18)
22 April 2018 | Strasbourg, France
Light Shaping Workshop
22 April 2018 | Strasbourg, France
Modeling Aspects in Optical Metrology
26 June 2017 | Munich, Germany
Optical Storage and Display Technology
4 June 2017 | Beijing, China
Showing 5 of 34 published special sections
Course Instructor
SC207: Introduction to Wave Optical Engineering
In this course, propagation through miniaturized or micro-structured optical systems and components, optical systems for novel applications and relying on merit functions defined by the field representation of light are demonstrated. The light coupling efficiency into a fiber is an example of such a merit function. modern optical design concepts like amplitude matching require a field representation of light. Optical systems design that take the light and its waves into consideration is appropriately called wave-optical engineering or physical-optical system design. This course shows why this field is becoming a widely used way of obtaining innovative solutions to optical design problems.
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