Three-dimensional shape measurement of aspheric refractive optics by pattern transmission photogrammetry

Marcus Petz; Marc Fischer; Rainer Tutsch

doi:10.1117/12.810530

19 January 2009 Three-dimensional shape measurement of aspheric refractive optics by pattern transmission photogrammetry

Marcus Petz, Marc Fischer, Rainer Tutsch

Author Affiliations +

Proceedings Volume 7239, Three-Dimensional Imaging Metrology; 723906 (2009) https://doi.org/10.1117/12.810530
Event: IS&T/SPIE Electronic Imaging, 2009, San Jose, California, United States

Abstract

For fast, accurate and robust shape measurement of specular surfaces there are several powerful measurement techniques based on deflectometry. For boundary surfaces of transparent objects like refractive optics, on the contrary, deflectometry is so far limited to the measurement of only one surface in reflection. This is unsatisfying from a metrological point of view as the geometrical relation between both surfaces, which substantially defines the optical function, is lost. In this work a new deflectometric approach is presented that works in transmission and allows the simultaneous measurement of both surfaces of refractive optics. The basic idea of the approach is calculating the unknown surface geometry of a transparent object by iteratively adapting a surface model to the observed light ray deflections. The main problem in this case is the ambiguity of the refraction at the two boundary surfaces of a lens, as there are multiple possible solutions that produce the same measurement results. This is solved by combining four different views on the object under test, which allows to find an unambiguous solution. An experimental measurement setup is presented and results of different simulations and tests are discussed in this paper.

Citation Download Citation

Marcus Petz, Marc Fischer, and Rainer Tutsch "Three-dimensional shape measurement of aspheric refractive optics by pattern transmission photogrammetry", Proc. SPIE 7239, Three-Dimensional Imaging Metrology, 723906 (19 January 2009); https://doi.org/10.1117/12.810530

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