Photonic Inverse Design of Simple Particles with Realistic Losses in the Visible Frequency Range †

Valagiannopoulos, Constantinos

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dc.contributor.author	Valagiannopoulos, Constantinos
dc.date.accessioned	2019-04-24T12:51:40Z
dc.date.available	2019-04-24T12:51:40Z
dc.date.issued	2019-02-28
dc.identifier.citation	Valagiannopoulos, C. Photonic Inverse Design of Simple Particles with Realistic Losses in the Visible Frequency Range. Photonics 2019, 6, 23.	en_US
dc.identifier.uri	http://dx.doi.org/10.3390/photonics6010023
dc.identifier.uri	http://nur.nu.edu.kz/handle/123456789/3839
dc.description.abstract	Billions of U.S. dollars of basic and applied research funding have been invested during the last few years in ideas proposing inverse concepts. The photonics market could not make an exception to this global trend, and thus, several agenda-setting research groups have already started providing sophisticated tools, constrained optimization algorithms, and selective evolution techniques towards this direction. Here, we present an approach of inverse design based on the exhaustive trial-and-testing of the available media and changing the physical dimensions’ range according to the operational wavelength. The proposed technique is applied to the case of an optimal radiation-enhancing cylindrical particle fed by a line source of visible light and gives a two-order increase in the magnitude of the produced signal.	en_US
dc.language.iso	en	en_US
dc.publisher	MDPI	en_US
dc.rights	Attribution-NonCommercial-ShareAlike 3.0 United States	*
dc.rights.uri	http://creativecommons.org/licenses/by-nc-sa/3.0/us/	*
dc.subject	inverse design	en_US
dc.subject	photonic devices	en_US
dc.subject	visible light	en_US
dc.subject	wireless power transfer	en_US
dc.title	Photonic Inverse Design of Simple Particles with Realistic Losses in the Visible Frequency Range †	en_US
dc.type	Article	en_US
workflow.import.source	science