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15 May 2001 Modeling of micro-optical systems by using nonsequential ray tracing
Sanna M. Aikio, Chen Liang, Jukka-Tapani Maekinen, Juha T. Rantala, Michael R. Descour
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Proceedings Volume 4284, Functional Integration of Opto-Electro-Mechanical Devices and Systems; (2001) https://doi.org/10.1117/12.426863
Event: Symposium on Integrated Optics, 2001, San Jose, CA, United States
Abstract
We have used non-sequential ray tracing as a simulation tool to model micro-optical systems. Ray tracing can be used to model micro-optical systems as long as the wave nature of the light is not dominant. Non-sequential ray tracing takes inherently into account the aberrations of the optical system and enables the modeling of scattering and stray light effects. We have used measured scattering properties of a hybrid-glass lens material to model scattering in an example imaging micro-optical system. We have also used non-sequential ray tracing to model a straight and a bent light-guide that can be used as chemical sensors. Modeling estimates the amount of light going through the optical system to the detector and shows the paths of the rays leaking out from the system.
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Sanna M. Aikio, Chen Liang, Jukka-Tapani Maekinen, Juha T. Rantala, and Michael R. Descour "Modeling of micro-optical systems by using nonsequential ray tracing", Proc. SPIE 4284, Functional Integration of Opto-Electro-Mechanical Devices and Systems, (15 May 2001); https://doi.org/10.1117/12.426863
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KEYWORDS
Systems modeling
Ray tracing
Sensors
Waveguides
Chemical fiber sensors
Scattering
Light scattering
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