Negative-ion mass spectrometric study of ion-pair formation in the vacuum ultraviolet. V. CF4→F−+CF+3

Abstract

Ion‐pair formation from photoexcitation of CF₄ has been studied by negative‐ion mass spectrometry using synchrotron radiation in the 11–31 eV photon energy range. Negative F⁻ ions have been observed. The appearance energy in the F⁻ photodissociation efficiency curve is about 2 eV higher than the thermochemical threshold for the formation of the ground‐state ions F⁻(¹S_g) and CF⁺₃(X̃ ¹A^’₁). The peak features observed in the spectrum are interpreted as resulting from transitions to Rydberg states with the ¹T₂ symmetry. Assignments of the peaks have been made on the basis of the previous work on photoabsorption cross‐section curves of CF₄. Repulsive Rydberg states converging to CF⁺₄(X̃ ²T₁, Ã ²T₂) give the strong and broad peaks in the F⁻ efficiency curve. Conversion to the ion‐pair state is considered to occur through the avoided potential surface crossings along the dissociation coordinate of the CF₃—F bond. In contrast, the npt₂ Rydberg states (n≥4) converging to CF⁺₄(C̃ ²T₂) show long vibrational progressions. The radiative and nonradiative decay pathways for these Rydberg states are discussed.