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Enhanced greenhouse gas sensors exploiting upconversion of light

Enhanced greenhouse gas sensors exploiting upconversion of light
Enhanced greenhouse gas sensors exploiting upconversion of light
This paper proposes a new generation of greenhouse gas sensors exploiting upconversion of light. The method can outperform the state-of-the-art methane and carbon dioxide sensors by using silicon photon-counting technologies and high-efficiency upconversion waveguides.
Optica Publishing Group
Cardoso, Arthur
e6542819-d530-4720-934f-174dde77533b
Smith, Ruaridh
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Morland, Imogen
c087287f-0da5-4f06-bbeb-bb3d7db58ad4
McKnight, Loyd
6ab31a8f-2896-495e-ae35-5a5353ccefa1
Gawith, Corin
926665c0-84c7-4a1d-ae19-ee6d7d14c43e
Astill, Andy
c46e73fd-9247-4b6c-9dcf-e3254862f666
Pandiyan, Krish
1d894381-abc1-46e0-af22-18871663dc8f
Carver, Sara
2313afdf-03ef-47cf-ab2c-f9edacdc281d
Weld, Andrew
6ad78b14-ffe7-4132-8326-bf5ea8d2464d
Xi, Xiao
a4e9a3b5-5d78-4031-8393-ec74a115b944
Rarity, John
3607ce44-b778-41be-a281-f6cd0070c479
Cardoso, Arthur
e6542819-d530-4720-934f-174dde77533b
Smith, Ruaridh
0b0c59c7-263d-4239-9018-713d9ac9e852
Morland, Imogen
c087287f-0da5-4f06-bbeb-bb3d7db58ad4
McKnight, Loyd
6ab31a8f-2896-495e-ae35-5a5353ccefa1
Gawith, Corin
926665c0-84c7-4a1d-ae19-ee6d7d14c43e
Astill, Andy
c46e73fd-9247-4b6c-9dcf-e3254862f666
Pandiyan, Krish
1d894381-abc1-46e0-af22-18871663dc8f
Carver, Sara
2313afdf-03ef-47cf-ab2c-f9edacdc281d
Weld, Andrew
6ad78b14-ffe7-4132-8326-bf5ea8d2464d
Xi, Xiao
a4e9a3b5-5d78-4031-8393-ec74a115b944
Rarity, John
3607ce44-b778-41be-a281-f6cd0070c479

Cardoso, Arthur, Smith, Ruaridh, Morland, Imogen, McKnight, Loyd, Gawith, Corin, Astill, Andy, Pandiyan, Krish, Carver, Sara, Weld, Andrew, Xi, Xiao and Rarity, John (2024) Enhanced greenhouse gas sensors exploiting upconversion of light. In Quantum 2.0 Conference and Exhibition, Technical Digest Series. Optica Publishing Group.. (doi:10.1364/QUANTUM.2024.QTu3A.37).

Record type: Conference or Workshop Item (Paper)

Abstract

This paper proposes a new generation of greenhouse gas sensors exploiting upconversion of light. The method can outperform the state-of-the-art methane and carbon dioxide sensors by using silicon photon-counting technologies and high-efficiency upconversion waveguides.

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More information

Published date: 25 June 2024
Additional Information: https://doi.org/10.1364/QUANTUM.2024.QTu3A.37
Venue - Dates: Quantum 2.0 2024, , Rotterdam, Netherlands, 2024-06-23 - 2024-06-27

Identifiers

Local EPrints ID: 495472
URI: http://eprints.soton.ac.uk/id/eprint/495472
DOI: doi:10.1364/QUANTUM.2024.QTu3A.37
PURE UUID: c443198d-7785-4ed5-8b8c-f9288f92f719
ORCID for Corin Gawith: ORCID iD orcid.org/0000-0002-3502-3558

Catalogue record

Date deposited: 14 Nov 2024 17:38
Last modified: 15 Nov 2024 02:37

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Contributors

Author: Arthur Cardoso
Author: Ruaridh Smith
Author: Imogen Morland
Author: Loyd McKnight
Author: Corin Gawith ORCID iD
Author: Andy Astill
Author: Krish Pandiyan
Author: Sara Carver
Author: Andrew Weld
Author: Xiao Xi
Author: John Rarity

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