Threshold structure in the vibrational excitation of CO2 by low-energy electrons

Evidence is presented from a linewidth study of electron cyclotron resonance (ECR) absorption for efficient T+ V energy transfer between low-energy electrons (<O-S eV) and the fluorocarbons CF, and &Fe. It is suggested that this escitation proceeds by means of a direcr inechanism.

We examine the mass dependence of cross sections for resonant vibrational excitation by electron impact (from z+ to ur) in H2 and its isotopes. Excitation cross sections, for both inelastic and superelastic collisions, using numerical potential curves in a nonlocal resonance theory are presented and

Spectra emitted from 0.15 CO-N; solids escited with high encrg elccirons at 4 R show evidence for rcsonant transfer of vibrational &qry from highly excited vibrational levels of N, to Coin the process,Nz(XI z'&, v) + CO(u = 0) --F N,(X'ZL, Y -1) + C0(11= 1) + phonons. Enqg transfer from levels with

## I Molecular beam fluorescence excitation spectra of sulphur dioxide in the wavelength range 348-334 nm are presented. Identification of cold transitions is accomplished by controlled variation of vibrational temperature, and narrow rotational contours permit accurate determination of the corres