An optical transceiver design for long-path broadband differential optical absorption spectroscopy

Joohyung Lee; Kunekwan Song; Hongin Kim; Minsu Choi

doi:10.1109/ICSensT.2017.8304454

An optical transceiver design for long-path broadband differential optical absorption spectroscopy

Joohyung Lee, Kunekwan Song, Hongin Kim, Minsu Choi

Dept. of Mechanical System and Design Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

We describe optical and structure design of an optical transceiver for remote sensing of multiple gas pollutants by long-path differential optical absorption spectroscopy. The optical transceiver consists of a primary mirror of 200 mm diameter with f/2, 70 mm diameter of secondary mirror and two fiber ports which are transmitting light and receiving light purposed, respectively. Our optical simulation proves the proposed telescope design enables ∼30 % fiber-coupling efficiency without significant spectral loss.

Original language	English
Title of host publication	2017 11th International Conference on Sensing Technology, ICST 2017
Publisher	IEEE Computer Society
Pages	1-3
Number of pages	3
ISBN (Electronic)	9781509065264
DOIs	https://doi.org/10.1109/ICSensT.2017.8304454
State	Published - 2 Jul 2017
Event	11th International Conference on Sensing Technology, ICST 2017 - Sydney, Australia Duration: 4 Dec 2017 → 6 Dec 2017

Publication series

Name	Proceedings of the International Conference on Sensing Technology, ICST
Volume	2017-December
ISSN (Print)	2156-8065
ISSN (Electronic)	2156-8073

Conference

Conference	11th International Conference on Sensing Technology, ICST 2017
Country/Territory	Australia
City	Sydney
Period	4/12/17 → 6/12/17

Keywords

Component
LP-DOAS
Optical transceiver
Remote sensing
Spectroscopy

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10.1109/ICSensT.2017.8304454

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Lee, J., Song, K., Kim, H., & Choi, M. (2017). An optical transceiver design for long-path broadband differential optical absorption spectroscopy. In 2017 11th International Conference on Sensing Technology, ICST 2017 (pp. 1-3). Article 8304454 (Proceedings of the International Conference on Sensing Technology, ICST; Vol. 2017-December). IEEE Computer Society. https://doi.org/10.1109/ICSensT.2017.8304454

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title = "An optical transceiver design for long-path broadband differential optical absorption spectroscopy",

abstract = "We describe optical and structure design of an optical transceiver for remote sensing of multiple gas pollutants by long-path differential optical absorption spectroscopy. The optical transceiver consists of a primary mirror of 200 mm diameter with f/2, 70 mm diameter of secondary mirror and two fiber ports which are transmitting light and receiving light purposed, respectively. Our optical simulation proves the proposed telescope design enables ∼30 \% fiber-coupling efficiency without significant spectral loss.",

keywords = "Component, LP-DOAS, Optical transceiver, Remote sensing, Spectroscopy",

author = "Joohyung Lee and Kunekwan Song and Hongin Kim and Minsu Choi",

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year = "2017",

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doi = "10.1109/ICSensT.2017.8304454",

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Lee, J, Song, K, Kim, H & Choi, M 2017, An optical transceiver design for long-path broadband differential optical absorption spectroscopy. in 2017 11th International Conference on Sensing Technology, ICST 2017., 8304454, Proceedings of the International Conference on Sensing Technology, ICST, vol. 2017-December, IEEE Computer Society, pp. 1-3, 11th International Conference on Sensing Technology, ICST 2017, Sydney, Australia, 4/12/17. https://doi.org/10.1109/ICSensT.2017.8304454

An optical transceiver design for long-path broadband differential optical absorption spectroscopy. / Lee, Joohyung; Song, Kunekwan; Kim, Hongin et al.
2017 11th International Conference on Sensing Technology, ICST 2017. IEEE Computer Society, 2017. p. 1-3 8304454 (Proceedings of the International Conference on Sensing Technology, ICST; Vol. 2017-December).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - We describe optical and structure design of an optical transceiver for remote sensing of multiple gas pollutants by long-path differential optical absorption spectroscopy. The optical transceiver consists of a primary mirror of 200 mm diameter with f/2, 70 mm diameter of secondary mirror and two fiber ports which are transmitting light and receiving light purposed, respectively. Our optical simulation proves the proposed telescope design enables ∼30 % fiber-coupling efficiency without significant spectral loss.

AB - We describe optical and structure design of an optical transceiver for remote sensing of multiple gas pollutants by long-path differential optical absorption spectroscopy. The optical transceiver consists of a primary mirror of 200 mm diameter with f/2, 70 mm diameter of secondary mirror and two fiber ports which are transmitting light and receiving light purposed, respectively. Our optical simulation proves the proposed telescope design enables ∼30 % fiber-coupling efficiency without significant spectral loss.

KW - Component

KW - LP-DOAS

KW - Optical transceiver

KW - Remote sensing

KW - Spectroscopy

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M3 - Conference contribution

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Y2 - 4 December 2017 through 6 December 2017

ER -

An optical transceiver design for long-path broadband differential optical absorption spectroscopy

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Keywords

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