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Accession Number:
ADA379245
Title:
Thermal Hyperthermal Collision Dynamics of Atmospheric Species
Descriptive Note:
Final rept. Sept-Dec 1999
Corporate Author:
JOINT INST FOR LAB ASTROPHYSICS BOULDERCO
Report Date:
2000-03-01
Pagination or Media Count:
3.0
Abstract:
Shot-noise limited, direct absorption IR laser methods have been used to study i state-to-state reaction dynamics in crossed supersonic jets and ii temperature dependent studies of OH O3 chemical chain reaction kinetics via flash kinetic spectroscopy. In this first area. state-resolved studies of F H2 scattering have been completed from E 2.4 kcalmole down to 0.30 kcalsmole, which by virtue of the high quantum state resolution in product detection have revealed contributions due to non-adiabotic reactions with spin orbit excited F atoms. These methods have been extended to F CH4, where high resolution IR laser Dopplerimetry can be used to extract product state velocities and thus differential cross section information at the state-to-stale level. Time-resolved flash kinetic studies of the OHHO2O3 chemical chain reaction has been performed from 300 K down 0 190 K. providing first access to temperature conditions relevant to accurate modeling of the lower stratosphere. These methods have been extended to study airglow dynamics of highly rotationally excited OHv.N radicals formed from H O3 reactions.
Distribution Statement:
APPROVED FOR PUBLIC RELEASE
