ISSN:
1089-7690
Source:
AIP Digital Archive
Topics:
Physics
,
Chemistry and Pharmacology
Notes:
A continuous or quasicontinuous band in the 200–500 nm wavelength range is known to be emitted following electron, fast ion, and vacuum ultraviolet photon impact on CF4 and CHF3. We performed a photon/fragment-ion coincidence experiment following 2 MeV H+, He+, and He++ impact on CF4 and CHF3 with the objective to clarify the nature of the emitter and to study the dynamics of the emission process. In the case of the CF4 molecule, we observed that the photons in the 200–500 nm range are quantitatively coincident with CF+3 fragments. From the structure of the coincidence peak, we derived the kinetic energy released during the dissociation process and compared it with the optical spectrum and the total available energy. It follows that the CF+3 ions are vibrationally and/or rotationally highly excited. The continuous emission is explained by a radiative decay of the CF+4(C˜ 2T2) state to the CF+4(X˜ 2A1) repulsive potential surface which dissociates quickly into CF+3 and a fluorine atom. In the case of the CHF3 molecule, we observed coincidences between photons in the 200–500 nm range and CHF+2 fragments. A process similar to that in the CF4 molecule seems to take place with the CHF+3(D˜) state as the precursor. In the same spectral range, a band of electronically excited CF*2 radicals seems also to be present. No coincidences between photons in the 200–500 nm range and CF+3 were observed which excludes the CF+*3 as a precursor of the continuous bands in the case of CHF3 and makes it very unlikely in the case of CF4.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1063/1.467173
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