Optical Properties and Distribution of Stratospheric Aerosols
Document ID: 125
Harris, Ronnie S.
Mathur, Savyasachee L.
Philbrick, C. Russell
The Pennsylvania State University, Department of Electrical Engineering, University Park, PA, U.S.A.
Presented: Second Topical Symposium on Combined Optical-Microwave Earth and Atmosphere Sensing, 3-6 April 1995
Abstract
Stratospheric aerosols significantly influence both the Earth's climate and the chemical composition of the stratosphere. Volcanic aerosols injected into the stratosphere, due to large volcanic emptions, further enhance the effect on the climate and possibly lead to ozone depletion in the middle latitude stratosphere. Our studies focus primarily on the change in the distribution of stratospheric aerosols before and after volcanic activity. The particle backscatter and other properties of stratospheric aerosols arc studied to describe their variations. The Penn State Rayleigh/Raman lidar utilizes a Nd:YAG laser transmitting at both the doubled (532 nm) and tripled (355 nm) frequencies. The detector is equipped with separate channels to measure the low and high altitude signals from both the 532 nm and 355 run as well as the Raman shifted returns due to N2 and H20 (660 nm and 607 nm). The LAMP lidar was first deployed on board the RV Polarstern during the LADIMAS campaign and has since been in operation in the United States. Scattering due to stratospheric aerosols from volcanic activity has been studied across different latitudes and over time. The effects due to Mt. Pinatubo (Philippines) and Mt. Hudson (Chile) eruptions have been compared.
| Citation: | "Optical Properties and Distribution of Stratospheric Aerosols", Harris, R. S., S. L. Mathur, C. R. Philbrick, Conference Proceedings, Second Topical Symposium on Combined Optical-Microwave Earth and Atmosphere Sensing, IEEE Proceedings, 1995, pp. 167 - 169, DOI: 10.1109/COMEAS.1995.472375 |