Optical designs for ultrahigh-flux infrared and solar energy collection: monolithic dielectric tailored edge-ray concentrators

Robert P. Friedman; J. M. Gordon

doi:10.1364/AO.35.006684

Applied Optics
Vol. 35,
Issue 34,
pp. 6684-6691
(1996)
•https://doi.org/10.1364/AO.35.006684

Optical designs for ultrahigh-flux infrared and solar energy collection: monolithic dielectric tailored edge-ray concentrators

Robert P. Friedman and J. M. Gordon

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Robert P. Friedman and J. M. Gordon, "Optical designs for ultrahigh-flux infrared and solar energy collection: monolithic dielectric tailored edge-ray concentrators," Appl. Opt. 35, 6684-6691 (1996)

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Abstract

A new class of optical designs is developed for attaining ultrahigh flux in infrared and solar energy concentrators. These concentrators are required to satisfy simultaneously three criteria: (1) being monolithic, i.e., comprising a single piece of dielectric such that no mirrored surfaces or air spaces between concentrator elements are introduced; (2) attaining at least 90% of the thermodynamic limit to concentration; and (3) being relatively compact, e.g., aspect ratios of the order of unity or less. Our inventions are rooted in the recently developed formalism of tailored edge-ray concentrators.

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n	θ _a (radian)	Aspect Ratio	(Average Path Length)/(Entrance Diameter)
1.5	0.01	1.25	1.71
1.5	0.10	1.25	1.82
4	0.01	0.714	2.72
4	0.10	0.714	2.81

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Applied Optics