Highly efficient and broadband mid-infrared metamaterial thermal emitter for optical gas sensing

Yongkang Gong; Zuobin Wang; Kang Li; Leshan Uggalla; Jungang Huang; Nigel Copner; Yang Zhou; Dun Qiao; Jiuyuan Zhu

doi:10.1364/OL.42.004537

Highly efficient and broadband mid-infrared metamaterial thermal emitter for optical gas sensing

Yongkang Gong^*, Zuobin Wang, Kang Li, Leshan Uggalla, Jungang Huang, Nigel Copner, Yang Zhou, Dun Qiao, Jiuyuan Zhu

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Development of a novel, cost-effective, and highly efficient mid-infrared light source has been identified as a major scientific and technological goal within the area of optical gas sensing. We have proposed and investigated a mid-infrared metamaterial thermal emitter based on micro-structured chromium thin film. The results demonstrate that the proposed thermal light source supports broadband and wide angular absorption of both TE- and TM-polarized light, giving rise to broadband thermal radiation with averaged emissivity of ∼0.94 in a mid-infrared atmospheric window of 8–14 μm. The proposed microphotonic concept provides a promising alternative mid-infrared source and paves the way towards novel optical gas sensing platforms for many applications.

Iaith wreiddiol	Saesneg
Tudalennau (o-i)	4537-4540
Nifer y tudalennau	4
Cyfnodolyn	Optics Letters
Cyfrol	42
Rhif cyhoeddi	21
Dynodwyr Gwrthrych Digidol (DOIs)	https://doi.org/10.1364/OL.42.004537
Statws	Cyhoeddwyd - 01 Tach 2017
Cyhoeddwyd yn allanol	Ie

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10.1364/OL.42.004537

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@article{e75257d7e8674803806336e36e46b94d,

title = "Highly efficient and broadband mid-infrared metamaterial thermal emitter for optical gas sensing",

abstract = "Development of a novel, cost-effective, and highly efficient mid-infrared light source has been identified as a major scientific and technological goal within the area of optical gas sensing. We have proposed and investigated a mid-infrared metamaterial thermal emitter based on micro-structured chromium thin film. The results demonstrate that the proposed thermal light source supports broadband and wide angular absorption of both TE- and TM-polarized light, giving rise to broadband thermal radiation with averaged emissivity of ∼0.94 in a mid-infrared atmospheric window of 8–14 μm. The proposed microphotonic concept provides a promising alternative mid-infrared source and paves the way towards novel optical gas sensing platforms for many applications.",

author = "Yongkang Gong and Zuobin Wang and Kang Li and Leshan Uggalla and Jungang Huang and Nigel Copner and Yang Zhou and Dun Qiao and Jiuyuan Zhu",

note = "Publisher Copyright: {\textcopyright} 2017 Optical Society of America.",

year = "2017",

month = nov,

day = "1",

doi = "10.1364/OL.42.004537",

language = "English",

volume = "42",

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TY - JOUR

T1 - Highly efficient and broadband mid-infrared metamaterial thermal emitter for optical gas sensing

AU - Gong, Yongkang

AU - Wang, Zuobin

AU - Li, Kang

AU - Uggalla, Leshan

AU - Huang, Jungang

AU - Copner, Nigel

AU - Zhou, Yang

AU - Qiao, Dun

AU - Zhu, Jiuyuan

PY - 2017/11/1

Y1 - 2017/11/1

N2 - Development of a novel, cost-effective, and highly efficient mid-infrared light source has been identified as a major scientific and technological goal within the area of optical gas sensing. We have proposed and investigated a mid-infrared metamaterial thermal emitter based on micro-structured chromium thin film. The results demonstrate that the proposed thermal light source supports broadband and wide angular absorption of both TE- and TM-polarized light, giving rise to broadband thermal radiation with averaged emissivity of ∼0.94 in a mid-infrared atmospheric window of 8–14 μm. The proposed microphotonic concept provides a promising alternative mid-infrared source and paves the way towards novel optical gas sensing platforms for many applications.

AB - Development of a novel, cost-effective, and highly efficient mid-infrared light source has been identified as a major scientific and technological goal within the area of optical gas sensing. We have proposed and investigated a mid-infrared metamaterial thermal emitter based on micro-structured chromium thin film. The results demonstrate that the proposed thermal light source supports broadband and wide angular absorption of both TE- and TM-polarized light, giving rise to broadband thermal radiation with averaged emissivity of ∼0.94 in a mid-infrared atmospheric window of 8–14 μm. The proposed microphotonic concept provides a promising alternative mid-infrared source and paves the way towards novel optical gas sensing platforms for many applications.

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C2 - 29088207

AN - SCOPUS:85032737254

SN - 0146-9592

VL - 42

SP - 4537

EP - 4540

JO - Optics Letters

JF - Optics Letters

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Highly efficient and broadband mid-infrared metamaterial thermal emitter for optical gas sensing

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