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Wave-optical modeling beyond the thin-element-approximation

 
: Schmidt, S.; Tiess, T.; Schröter, S.; Hambach, R.; Jäger, M.; Bartelt, H.; Tünnermann, A.; Gross, H.

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Optics Express 24 (2016), No.26, pp.30188-30200
ISSN: 1094-4087
English
Journal Article, Electronic Publication
Fraunhofer IOF ()

Abstract
The optical design and analysis of modern micro-optical elements with high index contrasts and large numerical apertures is still challenging, as fast and accurate wave-optical simulations beyond the thin-element-approximation are required. We introduce a modified formulation of the wave-propagation-method and assess its performance in comparison to different beam-propagation-methods with respect to accuracy, required sampling densities, and computational performance. For typical micro-optical components, the wave-propagation-method is found to be considerably faster and more accurate at even lower sampling densities compared to the different beam-propagation-methods. This enables realistic wave-optical simulations beyond the thin-element-approximation for micro-optical components. As an example, the modified wave-propagation-method is applied for in-line holographic measurements of strongly diffracting objects. From a direct comparison of experimental results and corre sponding simulations, the geometric parameters of a test object could be retrieved with high accuracy.

: http://publica.fraunhofer.de/documents/N-434869.html