Add to ORKGWhen in resonance, Raman scattering exhibits strong enhancement ranging from four to six orders of magnitude. This physical phenomenon has been applied to remote sensing of the Earth`s atmosphere. With a 16 inch Cassegrain telescope and spectrometer/ CCD-detector system, 70-150 ppm-m of SO{sub 2} in the atmosphere has been detected at a distance of 0.5 kilometer. This system can be used to detect/monitor chemical effluence in the atmosphere by their unique Raman fingerprints. Experimental result together with detailed resonance Raman and atmospheric laser propagation effects will be discussed
A fully mobile remote-sensing system based on the lidar principle is described. With this system, at...
This paper presents quantitative comparisons of several single-ended lidar techniques for the remote...
The possibility of performing atmospheric-transmissivity measurements by lidar is considered. In the...
We have discussed recent experimental results using a resonance-Raman-based LIDAR system as a remote...
$^{1}$H. Inaba and T. Kobayasi, Nature, 224, 170, (1969). $^{2}$T. Kobayasi and H. Inaba, Appl. Phys...
Resonance Raman spectroscopy (RRS) possesses many characteristics that are important for detecting, ...
Influence of the vibrational-rotational Raman bands of molecules of the main components of the atmos...
Fast scanning lidar system can provide aerosol volume distribution and time evolution in atmosphere....
International audienceSounding of the atmospheric temperature by lidar has mostly been limited to Ra...
Raman Spectroscopy is an active remote sensing method that can map planetary mineral and chemical ab...
The possibility of performing atmospheric-transmissivity measurements by lidar is considered. In the...
Raman Spectroscopy is an active remote sensing method that can map planetary mineral and chemical ab...
In order to understand the impact of anthropogenic emissions upon the earth's environment, scientist...
The object of research is methods of remote ecological monitoring of the surface layer of the atmosp...
LIDAR techniques have been successfully applied to the detection of the Raman backscatter from S02 i...
A fully mobile remote-sensing system based on the lidar principle is described. With this system, at...
This paper presents quantitative comparisons of several single-ended lidar techniques for the remote...
The possibility of performing atmospheric-transmissivity measurements by lidar is considered. In the...
We have discussed recent experimental results using a resonance-Raman-based LIDAR system as a remote...
$^{1}$H. Inaba and T. Kobayasi, Nature, 224, 170, (1969). $^{2}$T. Kobayasi and H. Inaba, Appl. Phys...
Resonance Raman spectroscopy (RRS) possesses many characteristics that are important for detecting, ...
Influence of the vibrational-rotational Raman bands of molecules of the main components of the atmos...
Fast scanning lidar system can provide aerosol volume distribution and time evolution in atmosphere....
International audienceSounding of the atmospheric temperature by lidar has mostly been limited to Ra...
Raman Spectroscopy is an active remote sensing method that can map planetary mineral and chemical ab...
The possibility of performing atmospheric-transmissivity measurements by lidar is considered. In the...
Raman Spectroscopy is an active remote sensing method that can map planetary mineral and chemical ab...
In order to understand the impact of anthropogenic emissions upon the earth's environment, scientist...
The object of research is methods of remote ecological monitoring of the surface layer of the atmosp...
LIDAR techniques have been successfully applied to the detection of the Raman backscatter from S02 i...
A fully mobile remote-sensing system based on the lidar principle is described. With this system, at...
This paper presents quantitative comparisons of several single-ended lidar techniques for the remote...
The possibility of performing atmospheric-transmissivity measurements by lidar is considered. In the...