Temperature dependence of the disorientation cross section ? 1 2/(1) in rubidium-rare gas collisions

The quenching cross sections for collision of Cd( 53P, ) with H, or D2 arc measured in the range 430 < T< 900 K. They show a threshold behaviour, increasing by one order of magnitude in the studied temperature range, and a marked isotopic effect, being about two times greater for Hz than for DZ.

The quenching cross-sections for collision of Hg( 6 'PI ) with HZ or D2 are measured in the temperature range 300 < T< 700 K. They show a minimum at Tz400 K, suggesting the occurrence of two processes, which may be interpreted using calculated HgH, potential energy curves. These processes depend on

The temperature-dependent ultraviolet absorption cross-sections of CF,-CHFCl (HCFC-124) have been measured between 170 and 230 nm for temperatures ranging from 295 to 210 K, with uncertainties between 2 and 4%. These results are compared with other available sets of determinations. Temperature effec

Rate constants for the quenchrng of 02 ( r Xi) by HBr have been determined ever the temperature range 170 to 400 K and found to show only a very small rncre3se with rxsmg rempernture. These experimental values compare favorably with quenching probabilities calculated by assuming both short-range (re

Fully converged quantum cross sections for 4He-D2 (u= l,i=O) vibrational reliaxation were determined using the coupled-states method and a modikied version of the Gordon-Secrcst surface. First-order forbidden rotational transitions play a si@fkant role, comparable to that observed previously for the