Major TARFOX - LASE Reference Listings


1.Browell, E. V., and et al., First Lidar Measurements of Water Vapor and Aerosols
	from a High-Altitude Aircraft, OSA Optical Remote Sensing of the Atmosphere   Technical Digest, Vol. 2, pp 212-214, (1995).

2.LASE Validation Experiment and Atmospheric Case Studies, Browell, E.V.,S.
	Ismail, et al., 18th Int. Laser Radar Conf., pp32, Berlin, Germany, July 1996.

3. Browell, E.V., LASE Measurements of Tropospheric Water Vapor, Aerosols, and
	Cloud Distributions, OSA Optical Remote Sensing of the Atmosphere Technical Digest, Vol. 5, pp 2, (1997).

4. Moore, A. S., and et al.,  Development of the Lidar Atmospheric Sensing
	Experiment (LASE), an Advanced Airborne DIAL Instrument, Advances in Atmospheric Remote Sensing with Lidar, A. Ansmann
	and et al., Eds., Springer-Verlag, Berlin,  pp 281-288, (1997).

5. Browell, E. V., and et al., LASE Validation Experiment, Advances in Atmospheric
	Remote Sensing with Lidar, A. Ansmann and et al., Eds., Springer-Verlag, Berlin, pp 289-295, (1997).

6. Brackett, V. G., and et al., LASE Validation Experiment: Preliminary
	Processing of Relative Humidity from LASE Derived Water Vapor in the Middle to Upper Troposphere, Proceedings from
	the 19th International Laser Radar Conference (ILRC19), Annapolis, MD. (1998).

7. Ismail, S., and et al., LASE Measurements of Convective Boundary Layer
	Development during SGP97, Proceedings from the 19th International Laser Radar Conference (ILRC19), Annapolis, MD. (1998).

8. Ferrare, R. A., and et al., LASE Measurements of Aerosols and Water Vapor during
	TARFOX, Proceedings from the 19th International Laser Radar Conference (ILRC19), Annapolis, MD. (1998).





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