Light trapping and near-unity solar absorption in a three-dimensional photonic-crystal

We report what is to our knowledge the first observation of the effect of parallel-to-interface-refraction (PIR) in a three-dimensional, simple-cubic photonic-crystal. PIR is an acutely negative refraction of light inside a photonic-crystal, leading to light-bending by nearly 90 deg over broad wavel...

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Veröffentlicht in:	Optics letters 2013-10, Vol.38 (20), p.4200-4203
Hauptverfasser:	Kuang, Ping, Deinega, Alexei, Hsieh, Mei-Li, John, Sajeev, Lin, Shawn-Yu
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Sprache:	eng
Schlagworte:	Acceptance Doors Equivalence Light absorption Refraction Three dimensional Trapping Wavelengths
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creator	Kuang, Ping Deinega, Alexei Hsieh, Mei-Li John, Sajeev Lin, Shawn-Yu
description	We report what is to our knowledge the first observation of the effect of parallel-to-interface-refraction (PIR) in a three-dimensional, simple-cubic photonic-crystal. PIR is an acutely negative refraction of light inside a photonic-crystal, leading to light-bending by nearly 90 deg over broad wavelengths (λ). The consequence is a longer path length of light in the medium and an improved light absorption beyond the Lambertian limit. As an illustration of the effect, we show near-unity total absorption (≥98%) in λ=520-620 nm and an average absorption of ~94% over λ=400-700 nm for our α-Si:H photonic-crystal sample of an equivalent bulk thickness of t˜=450 nm. Furthermore, we have achieved an ultra-wide angular acceptance of light over θ=0°-80°. This demonstration opens up a new door for light trapping and near-unity solar absorption over broad λs and wide angles.
doi_str_mv	10.1364/OL.38.004200
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title	Light trapping and near-unity solar absorption in a three-dimensional photonic-crystal
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