Measurements of rotational relaxation cross sections for H2CO

A sudden-freeze model for the extraction of effective rotational relaxation cross sections from nozzle beam expansions is refined by introducing a temperature-dependent cross section u,~( T). Since (i) u,,ccexp( -A&), (ii) the rotational energy level spacing AE,ccJand (iii) J\*ccT"\*itisassumedthatu

Direct measurements of scattering cross sections for NHs in well-defined quantum states are made using a molcrular beam maser spectrometer. Cross sections are compared for a pure inversion state with those for a coherent superposition state for scattering gases He, Ar, Nz, N20, NHa, CFgH and CHaCN.T

Differential cross sections for rotational excitation in Dz + CO collisions are calculated at si. scattering angles using an electron gas surface and a semiclassical scattering theory in x\hich the translational and the rotational motion of CO are treated classicall? \vhereas the Dz rotation is quan

The statistical& approximation developed recently is extended to include drfferential cross sections. Two levels of the approximatlon are studied, both of which ledd to the same expressions for the statisticalIZ integral cross sections. The approach is illustrated by applications to He + HZ and He +