Conference poster Thermal radiation enhancement by thermal extraction of silicon micropyramids
Ryugo Hosokawa (author) (Search by this author)
ORCID https://orcid.org/0009-0001-7579-4752
Research Center for Materials Nanoarchitectonics (MANA)/Nanomaterials Field/Optical Nanostructure Team, National Institute for Materials Science
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Etsuko Shimada (author) (Search by this author)
Research Center for Materials Nanoarchitectonics (MANA)/Nanomaterials Field/Optical Nanostructure Team, National Institute for Materials Science
;
Chia-Hung Wu (author) (Search by this author)
;
Satoshi Ishii (author) (Search by this author)
ORCID https://orcid.org/0000-0003-0731-8428
Research Center for Materials Nanoarchitectonics (MANA)/Nanomaterials Field/Optical Nanostructure Team, National Institute for Materials Science
SAMURAI NIMS Researchers Directory SAMURAI
ORCID SAMURAI
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Citation
Ryugo Hosokawa, Etsuko Shimada, Chia-Hung Wu, Satoshi Ishii. Thermal radiation enhancement by thermal extraction of silicon micropyramids. https://doi.org/10.48505/nims.4924
SAMURAI

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(abstract)

The refractive index of a thermal radiation medium plays a role in the magnitude of heat flux. However, the refractive index is often omitted because those of air and vacuum are unity. Here we investigated whether silicon (Si) micropyramids, which has a high refractive index in the mid-infrared region, can be used as thermal extractors into vacuum. The purpose of introducing micropyramids is to reduce total internal refraction, where a hemisphere dome was used previously whose height increases with increasing area.
We numerically simulated the thermal extraction enhancement of Si micropyramids into vacuum. The result shows that Si micropyramids can enhance thermal extraction by 64.6% with the optimized pyramid width. In experiments, micro-sized pyramids were fabricated by wet etching a 500 µm thick Si substrate, and the thermal extraction was evaluated by a heat flux sensor in vacuum. The measured heat flux of the Si micropyramids was greater than that of the planar Si substrate or without Si substrate. These numerical and experimental results indicate that the Si micropyramids can enhance thermal radiation by thermal extraction despite their reduced thickness.

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Keyword: Thermal radiation, Microstructure

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Conference: Joint workshop LANL/NIMS Quantum and Functional Materials and MANA International Symposium 2024 (2024-10-15 - 2024-10-17)

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Manuscript type: Not a journal article

MDR DOI: https://doi.org/10.48505/nims.4924

First published URL: https://www.nims.go.jp/mana/2024/abstract/nm-17_ryugo_hosokawa.html

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Updated at: 2024-11-06 16:30:47 +0900

Published on MDR: 2024-11-06 16:30:47 +0900

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