Vibrational relaxation in SnCl4

SSH-Tanczos c&uhtions are cxried out to estimate :he energ transfer probabdities and the slow ribrational rehu-tion time in S02 in the tempemture mnge 300-2000 K. The theoretkd results suzest a series process belos 1000 K, snd a complex serïes/parallel process above that temperature for the wbrstion

The relaxation rams of u = 3 and u = 4 were determined to be k\* = (2.8 i-0.4) X IO-" cm3 molecule-t SC' and k$ = (7.2 + 05) X lo-" cm3 molecule-t SC' at 293 K. It is shown that single quantum energy transfer can account for all of rhe nirational relaxation.

We discuss the relationship between vibrational population relaxation, loss of phase coharence, and the homogeneously broadened spontaneous poklzed Raman linewidth. We derive a general equation reltmg these quantitres. and show that extension of the simple model (where the coupling to the heat bath

Trio types of time resolved experiments have been performed on the intermediate sized poi).ttomtc molecule dieth> I&-mine\_ in the liquid phase. in order to elucidate the pathway for vtbrationsl relaxation of the u= 3 level of the NH stretchins mode, which has 9410 cm-l of energy. Both techniques ha