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Concept design of a multiwavelength aerosol lidar system with mitigated diattenuation effects and depolarization-measurement capability

Author
Comeron, A.; Sicard, M.; Vidal, E.; Barragan, R.; Muñoz, C.; Rodriguez-Gomez, A.; Tiana-Alsina, J.; Rocadenbosch, F.; Garcia, D.
Type of activity
Presentation of work at congresses
Name of edition
27th International Laser Radar Conference
Date of publication
2015
Presentation's date
2015-07-09
Book of congress proceedings
27th International Laser Radar Conference: program booklet
First page
37
Last page
37
Repository
http://hdl.handle.net/2117/86013 Open in new window
Abstract
It is known that the retrieval of aerosol extinction and backscatter coefficients from lidar data acquired through so-called total-power channels – intended to measure the backscattered power irrespective of the polarization – can be adversely affected by varying depolarization effects produced by the aerosol under measurement. This effect can be particularly noticeable in advanced multiwavelength systems, where different wavelengths are separated using a system of dichroic beam splitters, b...
Citation
Comeron, A., Sicard, M., Vidal, E., Barragan, R., Muñoz, C., Rodriguez-Gomez, A., Tiana, J., Rocadenbosch, F., Garcia, D. Concept design of a multiwavelength aerosol lidar system with mitigated diattenuation effects and depolarization-measurement capability. A: International Laser Radar Conference. "27th International Laser Radar Conference: program booklet". Nova York: 2015, p. 37.
Group of research
CTE-CRAE - Space Science and Technology Research Group
DONLL - Nonlinear dynamics, nonlinear optics and lasers
RSLAB - Remote Sensing Lab

Participants