Phase Space Ray Tracing for a Two-dimensional Parabolic Reflector | Zendy

C. Filosa | Zendy; J. H. M. Thije Boonkkamp | Zendy; W. L. IJzerman | Zendy

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Phase Space Ray Tracing for a Two-dimensional Parabolic Reflector

Author(s) -

C. Filosa,

J. H. M. Thije Boonkkamp,

W. L. IJzerman

Publication year - 2017

Publication title -

mathematics and statistics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.149

H-Index - 3

eISSN - 2332-2144

pISSN - 2332-2071

DOI - 10.13189/ms.2017.050401

Subject(s) - mathematics , ray tracing (physics) , reflector (photography) , space (punctuation) , parabolic reflector , geometry , mathematical analysis , optics , physics , light source , philosophy , linguistics

Ray tracing is a technique used in geometric optics for calculating the light distribution at the target of an optical system. Monte Carlo (MC) ray tracing is very common in non-imaging optics. We propose a new ray tracing method that employs the phase space of the source and the target of the system. The new method gives a more accurate target distribution than classical MC ray tracing and requires less computational time. It is tested for two-dimensional optical systems. The results for the paraboloid reflector are provided.

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