New Computation Methods For Geometrical Optics by Psang Dain LinNew Computation Methods For Geometrical Optics by Psang Dain Lin

New Computation Methods For Geometrical Optics

byPsang Dain Lin

Paperback | August 23, 2016

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This book employs homogeneous coordinate notation to compute the first- and second-order derivative matrices of various optical quantities. It will be one of the important mathematical tools for automatic optical design. The traditional geometrical optics is based on raytracing only. It is very difficult, if possible, to compute the first- and second-order derivatives of a ray and optical path length with respect to system variables, since they are recursive functions. Consequently, current commercial software packages use a finite difference approximation methodology to estimate these derivatives for use in optical design and analysis. Furthermore, previous publications of geometrical optics use vector notation, which is comparatively awkward for computations for non-axially symmetrical systems.
Dr. PD Lin is a distinguished Professor of Mechanical Engineering at the National Cheng Kung University, Taiwan, where he has been since 1989. He earned his BS and MS from that university in 1979 and 1984, respectively. He received his Ph.D. in Mechanical Engineering from Northwestern University, USA, in 1989. He has served as an assoc...
Title:New Computation Methods For Geometrical OpticsFormat:PaperbackDimensions:239 pages, 23.5 × 15.5 × 0.17 inPublished:August 23, 2016Publisher:Springer NatureLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:9811013411

ISBN - 13:9789811013416

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Table of Contents

Homogeneous coordinate notation.- Skew-Ray Tracing at Boundary Surfaces.- Modeling an Optical System.- Paraxial Optics for Axis-Symmetrical Systems.- The Jacobian Matrix of a Ray with respect to System Variable Vector.- Point Spread Function and Modulation Transfer Function.- Optical Path Length and Its Jacobian Matrix with respect to System Variable Vector.- The Wavefront Shape, Irradiance, and Caustic Surface in an Optical System.