Atmospheric extinction from Raman lidar and a bi-static remote receiver
Document ID: 127
Stevens, Timothy D.
Philbrick, C. Russell
The Pennsylvania State University, ARL/PSU LIDAR Laboratory, University Park, PA, U.S.A.
Presented: Second Topical Symposium on Combined Optical-Microwave Earth and Atmosphere Sensing, 3-6 April 1995
Abstract
The scattering of optical radiation in the visible, ultraviolet and infrared regions of the spectrum bas a major impact on commercial air traffic and on many military systems. It has become critically important, with modem systems, that the electro-optical environment be properly characterized. Lidar techniques show great promise for describing the electro-optical scattering environment. Most of the past applications of lidar have failed to provide satisfactory results because the techniques have generally focused on measurements of the backscattered radiation at the laser fundamental wavelength. We have been able to demonstrate that the rotational and vibrational Raman backscatter can be used to determine the extinction profile through optical scattering regions containing aerosols and cloud layers.
We have developed a secondary bi-static remote receiver designed to collect scattering angle and polarization information from a laser remote sensing system. This instrument collects an image of the radiation scattered from the first few kilometers of the atmospheric path to help determine atmospheric particle size distributions. By collecting data at different angles from the laser transmitter, additional information contained in the scattering angle phase function can be obtained. The Raman lidar extinction together with the backscatter phase function and polarization provide information on the particle size distribution that should allow extension of the extinction and transmission calculations to a wider range of wavelengths.
| Citation: | "Atmospheric extinction from Raman lidar and a bi-static remote receiver", Stevens, T. D., C. R. Philbrick, Conference Proceedings, Second Topical Symposium on Combined Optical-Microwave Earth and Atmosphere Sensing, IEEE Proceedings, 1995, pp. 170 - 173, DOI: 10.1109/COMEAS.1995.472374 |