Study of rotational relaxation in CH3Br by infrared-microwave double resonance

Double-resonance signals induced by molecular collisions are observed in 25 inversion transitions of NHs. It is found that the collision-induced transitions do not necesszily occur in accordance with the dipole-type selection rule reported previously.

## 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

The infrved vibration transition ~2 of NH3 isolated in a nitrogen matrix at 8'K is excited by the R(L0) and R(12) lines of the OO?l-10'0 transition of a Q-switched CO2 laser. When the continuous wave CO\* laser, used as a probe, is at the s3me frequency as the pump, a short exponential decay of tran

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