Vibrational deactivation of CO by n-H2, by p-H2 and by HD measured down to 77 K using laser fluorescence

Vibration to vibration and rotation (WR) exchange occurs between CO and D, over the temperature range 340 K to 230 K, whilst at lower temperatures VT deactivation is dominant. Probabilities for these processes and for D, -D, deactivation are presented.

## Rate constants for the deacrivarion of N,(u= 1) by n-H, and by PHI between 300 and 80 K have ken measured using laser fluorescence from CO(u= 1). There is no n-HZ/p-Hz difference. N,(v=l) is deactivated about 3 times more slowly than is CO(u = 1). Comparison with results in liquid N, support t

Rate constants for the vibrational deactivation of 12C1b by Hz, Dz and 'He have been determined by laser-induced fluorescence in the gas phase at low temperatures. The rate constants for 12C160( u= 1 )-H2 and '\*C?O( u= 1 )-D2 have been measured down to 35 K and those for '\*C%(o= 1 )-'He have been

An experiment on two-step photoionization of HzCO mokcules by simultaneous action of a radiation pulse of a Nz-laser (h = 3371 A) which excttes the 'AZ state and of a Hz-Iasir (h = 1600 A) which photoionizes the excited molecules is reported. The decay of the ' A2 state of formaldehyde at a pressure

A dye laser has been used to excite fluorescence from OH, CN, NH, NO, CH, and C 2 in laboratory premixed flames at atmospheric pressure in connection with an investigation of the chemistry of the nitrogen compounds. OH concentrations were measured independently in a variety of flames by a method inv