Rare-earth garnet selective emitter

Lowe, Roland A.; Chubb, Donald L.; Farmer, Serene C.; Good, Brian S.

doi:10.1063/1.111221

Cited by 48 publications

(33 citation statements)

References 3 publications

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“…[1][2][3][4] TPV systems have no moving parts, high power density and a wide-ranging heat source. A specific feature of interest with the rare-earth oxides, for example, Er 2 O 3 , Yb 2 O 3 and Ho 2 O 3 is the strong band emission, which ranges from the visible to the nearinfrared wavelength region.…”

Section: Introductionmentioning

confidence: 99%

Thermal emission properties of Al2O3/Er3Al5O12 eutectic ceramics

Nakagawa

Ohtsubo

Waku

et al. 2005

Journal of the European Ceramic Society

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Section: Introductionmentioning

confidence: 99%

Thermal emission properties of Al2O3/Er3Al5O12 eutectic ceramics

Nakagawa

Ohtsubo

Waku

et al. 2005

Journal of the European Ceramic Society

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“…(Other system considerations have reduced demonstrated efficiencies of combustion-TPV systems to $2.5%. 3 ) Thus, a significant amount of work over the past 30 years has focused on improving the optical-toelectrical conversion efficiency by recycling out of band photons, 4 using multiple bandgap cells, 5 modifying the emissivity of an object away from the typical blackbody, [6][7][8] or a combination of these techniques. 9 Numerous geometries for modifying the emission spectrum have been studied, including metal (such as tungsten) photonic crystals, 7,10 inverse opals, 11 and metal-dielectricmetal (MDM) metasurfaces.…”

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confidence: 99%

Heterogeneous metasurface for high temperature selective emission

Woolf

Hensley

Cederberg

et al. 2014

Applied Physics Letters

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We demonstrate selective emission from a heterogeneous metasurface that can survive repeated temperature cycling at 1300 K. Simulations, fabrication, and characterization were performed for a cross-over-a-backplane metasurface consisting of platinum and alumina layers on a sapphire substrate. The structure was stabilized for high temperature operation by an encapsulating alumina layer. The geometry was optimized for integration into a thermophotovoltaic (TPV) system, and was designed to have its emissivity matched to the external quantum efficiency spectrum of 0.6 eV InGaAs TPV material. We present spectral measurements of the metasurface that result in a predicted 22% optical-to-electrical power conversion efficiency in a simplified model at 1300 K. Furthermore, this broadly adaptable selective emitter design can be easily integrated into full-scale TPV systems.

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“…Sincethe Ho dopingconcentration, 1.5%,andhencethe emission at 2.0 _tm,is significantly lessthenthe Er dopingconcentration, 40%, efficiency resultsareexpected to besimilar to thatof the 40%Er YAG emitter in ref. 5. • , Several methods were used to calculate values for emitter efficiency using eq.1.…”

Section: Efficiency Resultsmentioning

confidence: 99%

Radiative performance of rare earth garnet thin film selective emitters

Lowe

Chubb

Good

1995

AIP Conference Proceedings

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Abstract.In this paper we present the first emitter efficiency results for the thin film 40% Er-l.5% Ho YAG (Yttrium Aluminum Garnet, Y3AisO12) and 25% Ho YAG selective emitter at 1500 K with a platinum substrate. Spectral emittance and emissive power measurements were made (1.2 < ). < 3.2 lain). Emitter efficiency and power density are significantly improved with the addition of multiple rate earth dopants. Predicted efficiency results are presented for an optimized (equal power density in the Er, 'I15/2 -ai13/2 @ 1.5 I.tm, and Ho, 517 -sis @ 2.0 gm emission bands) Er-Ho YAG thin film selective emittez INTRODUCTION

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Rare-earth garnet selective emitter

Cited by 48 publications

References 3 publications

Thermal emission properties of Al2O3/Er3Al5O12 eutectic ceramics

Thermal emission properties of Al2O3/Er3Al5O12 eutectic ceramics

Heterogeneous metasurface for high temperature selective emission

Radiative performance of rare earth garnet thin film selective emitters

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