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Extremely broadband ultralight thermally-emissive optical coatings

Extremely broadband ultralight thermally-emissive optical coatings
Extremely broadband ultralight thermally-emissive optical coatings
We report the design, fabrication, and characterization of ultralight highly emissive structures with a record-low mass per area that emit thermal radiation efficiently over a broad spectral (2 to 30 microns) and angular (0–60°) range. The structures comprise one to three pairs of alternating metallic and dielectric thin films and have measured effective 300 K hemispherical emissivity of 0.7 to 0.9 (inferred from angular measurements which cover a bandwidth corresponding to 88% of 300K blackbody power). To our knowledge, these micron-scale-thickness structures, are the lightest reported optical coatings with comparable infrared emissivity. The superior optical properties, together with their mechanical flexibility, low outgassing, and low areal mass, suggest that these coatings are candidates for thermal management in applications demanding of ultralight flexible structures, including aerospace applications, ultralight photovoltaics, lightweight flexible electronics, and textiles for thermal insulation.
1094-4087
18545-18562
Naqavi, Ali
eff0acba-842a-41ec-9d15-f3f31d634686
Loke, S.P.
42411d00-2762-430a-95ba-d7d1e6203c8c
Kelzenberg, M.D.
03b984a0-333d-4666-a024-aba163846be2
Callahan, D.M.
0c41920a-5d56-457a-9481-a96c0e61a68c
Tiwald, T.
6ba9e9da-6c90-4a31-812c-b598a45b9d99
Warmann, E.C.
cf9bb80c-96cd-4e8b-9a66-18ffc8e1117b
Espinet-González, P.
0567554b-258a-4302-acd8-1a13183e2fa6
Vaidya, N.
aa741ed5-08f6-4d6c-8719-cdf727cd9e4b
Roy, T.A.
6010547c-a60c-44b8-94cb-70bf1aa4b6ec
Huang, J.-S.
721aaac9-d9c4-4436-a853-45739ece3157
Vinogradova, T.G.
2b535f67-9890-4d0f-bbb9-114ce460287f
Atwater, H.A.
c2e01b60-7d35-447b-a85d-0794937d763b
Naqavi, Ali
eff0acba-842a-41ec-9d15-f3f31d634686
Loke, S.P.
42411d00-2762-430a-95ba-d7d1e6203c8c
Kelzenberg, M.D.
03b984a0-333d-4666-a024-aba163846be2
Callahan, D.M.
0c41920a-5d56-457a-9481-a96c0e61a68c
Tiwald, T.
6ba9e9da-6c90-4a31-812c-b598a45b9d99
Warmann, E.C.
cf9bb80c-96cd-4e8b-9a66-18ffc8e1117b
Espinet-González, P.
0567554b-258a-4302-acd8-1a13183e2fa6
Vaidya, N.
aa741ed5-08f6-4d6c-8719-cdf727cd9e4b
Roy, T.A.
6010547c-a60c-44b8-94cb-70bf1aa4b6ec
Huang, J.-S.
721aaac9-d9c4-4436-a853-45739ece3157
Vinogradova, T.G.
2b535f67-9890-4d0f-bbb9-114ce460287f
Atwater, H.A.
c2e01b60-7d35-447b-a85d-0794937d763b

Naqavi, Ali, Loke, S.P., Kelzenberg, M.D., Callahan, D.M., Tiwald, T., Warmann, E.C., Espinet-González, P., Vaidya, N., Roy, T.A., Huang, J.-S., Vinogradova, T.G. and Atwater, H.A. (2018) Extremely broadband ultralight thermally-emissive optical coatings. Optics Express, 26 (14), 18545-18562. (doi:10.1364/OE.26.018545).

Record type: Article

Abstract

We report the design, fabrication, and characterization of ultralight highly emissive structures with a record-low mass per area that emit thermal radiation efficiently over a broad spectral (2 to 30 microns) and angular (0–60°) range. The structures comprise one to three pairs of alternating metallic and dielectric thin films and have measured effective 300 K hemispherical emissivity of 0.7 to 0.9 (inferred from angular measurements which cover a bandwidth corresponding to 88% of 300K blackbody power). To our knowledge, these micron-scale-thickness structures, are the lightest reported optical coatings with comparable infrared emissivity. The superior optical properties, together with their mechanical flexibility, low outgassing, and low areal mass, suggest that these coatings are candidates for thermal management in applications demanding of ultralight flexible structures, including aerospace applications, ultralight photovoltaics, lightweight flexible electronics, and textiles for thermal insulation.

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More information

e-pub ahead of print date: 5 July 2018
Published date: 9 July 2018

Identifiers

Local EPrints ID: 470831
URI: http://eprints.soton.ac.uk/id/eprint/470831
DOI: doi:10.1364/OE.26.018545
ISSN: 1094-4087
PURE UUID: b89dff1d-fd36-48f5-ad34-83127c54cbca
ORCID for N. Vaidya: ORCID iD orcid.org/0000-0003-1843-7545

Catalogue record

Date deposited: 20 Oct 2022 16:37
Last modified: 17 Mar 2024 04:09

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Contributors

Author: Ali Naqavi
Author: S.P. Loke
Author: M.D. Kelzenberg
Author: D.M. Callahan
Author: T. Tiwald
Author: E.C. Warmann
Author: P. Espinet-González
Author: N. Vaidya ORCID iD
Author: T.A. Roy
Author: J.-S. Huang
Author: T.G. Vinogradova
Author: H.A. Atwater

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