Rotational relaxation of HCl in an Ar matrix

The first (Z(l)) and second (Zc2)) approximations to the rotational collision number of the Ar-N2 system are compared for a range of temperatures Although Z(l) and Zt2) . differ by a significant amount their difference r& mains nearly constant as a function of temperature. The effects of mass and p

A mixture of IO\% pressure SF6 snd HCI gas is subjected to P( 16)-COz iaser radiation. The ensuing iiuorescent sigafs from the WCI vibration and ground-stste rota?ions axe spectroscopic&y resolved and their tmnsisnt behaviour is measured. The fluorescent sign& are used to monitor the coliisionally i

Vibrational relaxation of HCI( v= 1) has been studied in mixtures with Kr and Xe at room temperature with the help of laserinduced fluorescence. Relaxation rate constants of k,,( Kr) =0.3 + 0.2 and k,,( Xe) = I. I f 0.3 Torr-' s-' have been found. The increase in the relaxation efftciency of xenon c

The vibrational relaxation of HCI in liquid xenon at -68°C has been studied. Vibrationally excited HCI is created following UV photolysis of HCI. The rate of relaxation of HCl as a function of HCl mole fraction in liquid xenon is the same as the correspondingrate forgas phaseHCIat -68°C. Similarly t