Edge collection function: an analytical expression for the optical efficiency of an energy-harvesting device based on photoluminescence

Fujieda, Ichiro; Yunoki, Kohei; Yamada, Yoshiki

doi:10.1117/1.oe.58.10.104101

Opt. Eng.

2019

DOI: 10.1117/1.oe.58.10.104101

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Edge collection function: an analytical expression for the optical efficiency of an energy-harvesting device based on photoluminescence

Ichiro Fujieda

Kohei Yunoki

Yoshiki Yamada

Abstract: An edge collection function is proposed for characterizing the optical efficiency of an energy-harvesting system that utilizes photoluminescence (PL) in a waveguide. We assume that a single spot in a waveguide is excited and that PL is isotropic. For the photons to be collected by one edge of the waveguide, they must be emitted toward the edge, trapped in the waveguide and they must survive self-absorption on the way. The optical efficiency is formulated as the product of these probabilities. When this functio… Show more

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Cited by 3 publications

References 14 publications

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Extending the concept of edge collection function to polygonal and curved planar luminescent waveguides

Fujieda

2020

J. Photon. Energy

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When a single spot in a planar luminescent waveguide is excited, some photoluminescence photons that are trapped inside reach its edge. Considering the photon losses due to leakage from its top and bottom surfaces and self-absorption during wave-guiding, the probability of collecting photons at its edge is expressed as a function of the coordinates of the excited spot for polygonal and curved waveguides. The emission is assumed to be isotropic, and scattering and re-emission events are neglected for simplicity. This model might be useful for predicting the performance of luminescent waveguides with various shapes under non-uniform illumination. © The Authors. Published by SPIE under a Creative Commons Attribution 4.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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Extending the concept of edge collection function to polygonal and curved planar luminescent waveguides

Fujieda

2020

J. Photon. Energy

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Concentric re-emission pattern from a planar waveguide with a thin uniform luminescent layer

Matsumura¹,

Fujieda²

2020

Appl. Opt.

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When a beam of light excites a single spot on a thin luminescent layer embedded in a planar waveguide, a concentric re-emission pattern is observed. An analytical expression is formulated by following the series of events in the waveguide: generation of angle-dependent photoluminescence spectra, reflection at the waveguide–air boundary, absorption by the luminescent layer, and generation of next-generation photoluminescence. The formula reproduces the peak radii observed in the experiments with some organic dyes. It provides insights for the re-emission events in a luminescent solar concentrator and the cross talk in an energy-harvesting display based on photoluminescence.

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Cross talk and optical efficiency of an energy-harvesting color projector utilizing ceramic phosphors

Yunoki

Matsumura

Kohmoto³

et al. 2019

Appl. Opt.

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Edge collection function: an analytical expression for the optical efficiency of an energy-harvesting device based on photoluminescence

Cited by 3 publications

References 14 publications

Extending the concept of edge collection function to polygonal and curved planar luminescent waveguides

Extending the concept of edge collection function to polygonal and curved planar luminescent waveguides

Concentric re-emission pattern from a planar waveguide with a thin uniform luminescent layer

Cross talk and optical efficiency of an energy-harvesting color projector utilizing ceramic phosphors

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