Add to ORKGThe statistical properties of atmospheric water vapor mixing ratio (WVMR) determined as the ratio of Raman lidar signals backscattered from water vapor and nitrogen molecules are studied. It is shown that WVMR estimates can be biased by a small percentage at low signal photon-counting rates due to fluctuations in the nitrogen signal in the denominator of the ratio, the magnitude of the bias being linked to the signal-to-noise ratio of the nitrogen signal. This is particularly important when unbiased estimates are required as in the case of climate studies and global positioning system (GPS) signal calibration. Different bias corrections and a modified ratio formulation are proposed in order to correct or eliminate this bias. The method is s...
Abstract. A Raman lidar system based on a tripled Nd:YAG laser is used for profiling of water vapor ...
In November 2012, the University of BASILicata Raman Lidar system (BASIL) was approved to enter the ...
International audienceWater vapor measurements from a Raman lidar developed conjointly by the IGN an...
The statistical properties of atmospheric water vapor mixing ratio (WVMR) determined as the ratio of...
Lidar measurements of the atmospheric water vapor mixing ratio provide an excellent complement to ra...
Obtaining vertical profiles of tropospheric water vapor provides critically important information to...
www-ee.ccny.cuny.edu/wwwa/web/vlad/index.html Abstract: Water vapor in the atmosphere is of major im...
A new method for independent calibration of water vapor Raman lidar by using additional measurements...
International audienceWe have investigated calibration variations in the Rameau water vapor Raman li...
International audienceThis paper investigates the impact of rapid small-scale water vapor fluctuatio...
This is a postprint (author final draft) version of article that has been accepted for publication. ...
We present a practical method to continuously calibrate Raman lidar observations of water vapor mixi...
We revised the calibration of a water vapor Raman lidar by co-located radiosoundings for a site in t...
Water vapor concentration, expressed as a mass mixing ratio (g kg-1), is conserved in all meteorolog...
International audienceThe Raman lidar ability to retrieve atmospheric water vapor with high accuracy...
Abstract. A Raman lidar system based on a tripled Nd:YAG laser is used for profiling of water vapor ...
In November 2012, the University of BASILicata Raman Lidar system (BASIL) was approved to enter the ...
International audienceWater vapor measurements from a Raman lidar developed conjointly by the IGN an...
The statistical properties of atmospheric water vapor mixing ratio (WVMR) determined as the ratio of...
Lidar measurements of the atmospheric water vapor mixing ratio provide an excellent complement to ra...
Obtaining vertical profiles of tropospheric water vapor provides critically important information to...
www-ee.ccny.cuny.edu/wwwa/web/vlad/index.html Abstract: Water vapor in the atmosphere is of major im...
A new method for independent calibration of water vapor Raman lidar by using additional measurements...
International audienceWe have investigated calibration variations in the Rameau water vapor Raman li...
International audienceThis paper investigates the impact of rapid small-scale water vapor fluctuatio...
This is a postprint (author final draft) version of article that has been accepted for publication. ...
We present a practical method to continuously calibrate Raman lidar observations of water vapor mixi...
We revised the calibration of a water vapor Raman lidar by co-located radiosoundings for a site in t...
Water vapor concentration, expressed as a mass mixing ratio (g kg-1), is conserved in all meteorolog...
International audienceThe Raman lidar ability to retrieve atmospheric water vapor with high accuracy...
Abstract. A Raman lidar system based on a tripled Nd:YAG laser is used for profiling of water vapor ...
In November 2012, the University of BASILicata Raman Lidar system (BASIL) was approved to enter the ...
International audienceWater vapor measurements from a Raman lidar developed conjointly by the IGN an...