Time-resolved infrared-ultraviolet double resonance studies of rotational relaxation in D2CO

An NzO laser is used to pump the ground vibrational state (8,7) inversion doublet of r4NH3 while simultaneously monitoring other pound state doublets. Time-resolved rotational energy transfer signals are observed in accordance with known selection values. Absolute rates cf rotational energy transfer

A time-resolved Raman-infrared double resonance technique was used to study collisional relaxation rates of vibrational and rotational energy levels in gas at 295 K. A pulsed Raman excitation populated a selected CO 2 rovibrational initial state. Measurements of the rates of transfer from the pumped

Infrared-ultraviolet double resonance experiments have been performed to measure total rotational relaxation rates from a single, selected level in C2H 2 induced by a variety of collision partners (M). Pulses of tunable infrared radiation from an optical parametric oscillator have been used to excit

## Radlofrequmcy -optical double resonance is used to momtor collisional relaxation hm various J, levels in the ,&'A,, u,, = 1 state or thloformaldehyde to the 16, levels. The results indicate lhat changes of J up to +. 12 and or K, = f 2 can occur m one or at most a kw collistons. ' R-h Associalc