Atmospheric CO2 sensing using Scheimpflug-lidar based on a 1.57-µm fiber source
(2019) In Optics Express 27(12). p.17348-17358- Abstract
A molecular laser-radar system, based on the Scheimpflug principle, has been constructed and demonstrated for remote sensing of atmospheric CO2 concentrations using Differential Absorption Lidar (DIAL) in the (30012←00001) absorption band. The laser source is a Continues Wave (CW) Distributed-FeedBack (DFB) diode laser seeding an Erbium-doped fiber amplifier, emitting narrowband (3 MHz) tunable radiation with an output power of 1.3 W at 1.57 µm. The laser beam is expanded and transmitted to the atmosphere. The atmospheric backscattered signal is collected with a Newtonian telescope and detected with a linear InGaAs array detector satisfying the Scheimpflug condition. We present range-resolved measurements of atmospheric... (More)
A molecular laser-radar system, based on the Scheimpflug principle, has been constructed and demonstrated for remote sensing of atmospheric CO2 concentrations using Differential Absorption Lidar (DIAL) in the (30012←00001) absorption band. The laser source is a Continues Wave (CW) Distributed-FeedBack (DFB) diode laser seeding an Erbium-doped fiber amplifier, emitting narrowband (3 MHz) tunable radiation with an output power of 1.3 W at 1.57 µm. The laser beam is expanded and transmitted to the atmosphere. The atmospheric backscattered signal is collected with a Newtonian telescope and detected with a linear InGaAs array detector satisfying the Scheimpflug condition. We present range-resolved measurements of atmospheric CO2 concentration from a test range of 2 km located in the city of Lund, Sweden. We discuss and provide scalable results for CO2 profiling with the Scheimpflug-lidar method.
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- author
- Larsson, Jim LU ; Bood, Joakim LU ; Xu, Can T. LU ; Yang, Xiong ; Lindberg, Robert ; Laurell, Fredrik and Brydegaard, Mikkel LU
- organization
- publishing date
- 2019
- type
- Contribution to journal
- publication status
- published
- subject
- in
- Optics Express
- volume
- 27
- issue
- 12
- pages
- 11 pages
- publisher
- Optical Society of America
- external identifiers
-
- pmid:31252945
- scopus:85066985211
- ISSN
- 1094-4087
- DOI
- 10.1364/OE.27.017348
- language
- English
- LU publication?
- yes
- id
- 4f7c03be-310a-44ee-8c58-6de7593c6549
- date added to LUP
- 2019-06-28 09:54:26
- date last changed
- 2024-10-02 07:02:48
@article{4f7c03be-310a-44ee-8c58-6de7593c6549,
abstract = {{<p>A molecular laser-radar system, based on the Scheimpflug principle, has been constructed and demonstrated for remote sensing of atmospheric CO<sub>2</sub> concentrations using Differential Absorption Lidar (DIAL) in the (30012←00001) absorption band. The laser source is a Continues Wave (CW) Distributed-FeedBack (DFB) diode laser seeding an Erbium-doped fiber amplifier, emitting narrowband (3 MHz) tunable radiation with an output power of 1.3 W at 1.57 µm. The laser beam is expanded and transmitted to the atmosphere. The atmospheric backscattered signal is collected with a Newtonian telescope and detected with a linear InGaAs array detector satisfying the Scheimpflug condition. We present range-resolved measurements of atmospheric CO<sub>2</sub> concentration from a test range of 2 km located in the city of Lund, Sweden. We discuss and provide scalable results for CO<sub>2</sub> profiling with the Scheimpflug-lidar method.</p>}},
author = {{Larsson, Jim and Bood, Joakim and Xu, Can T. and Yang, Xiong and Lindberg, Robert and Laurell, Fredrik and Brydegaard, Mikkel}},
issn = {{1094-4087}},
language = {{eng}},
number = {{12}},
pages = {{17348--17358}},
publisher = {{Optical Society of America}},
series = {{Optics Express}},
title = {{Atmospheric CO<sub>2</sub> sensing using Scheimpflug-lidar based on a 1.57-µm fiber source}},
url = {{http://dx.doi.org/10.1364/OE.27.017348}},
doi = {{10.1364/OE.27.017348}},
volume = {{27}},
year = {{2019}},
}