Vacuum-UV fluorescence spectroscopy of SiF4SiF4 in the range 10–30 eV

H. Biehl, Kenneth Boyle, D. P. Seccombe, D. M. Smith, R. P. Tuckett, K. R. Yoxall, H. Baumgärtel, H. W. Jochims

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Abstract

The vacuum-UV and visible spectroscopy of SiF4SiF4 using fluorescence excitation and dispersed emission techniques is reported. The fluorescence excitation spectrum has been recorded following excitation with synchrotron radiationfrom the BESSY 1, Berlin source in the energy range 10–30 eV with an average resolution of ∼0.05 eV.∼0.05 eV. By comparison with vacuum-UV absorption and electron energy loss spectra, all the peaks in the Rydberg spectra that photodissociate to a fluorescing state of a fragment have been assigned. Dispersed emission spectra have been recorded at the energies of all the peaks in the excitation spectra. Four different decay channels are observed: (a) SiF3SiF3fluorescence in the range 380–650 nm for photon energies around 13.0 eV, (b) SiF2SiF2 ã 3B1–X̃ 1A1ã 3B1–X̃ 1A1 phosphorescence in the range 360–440 nm for photonenergies in the range 15.2–18.0 eV, (c) SiF2SiF2 Ã 1B1–X̃ 1A1Ã 1B1–X̃ 1A1 fluorescence in the range 210–270 nm for photon energies in the range 17.0–20.0 eV, and (d) emission from the D̃ 2A1D̃ 2A1 state of SiF+4SiF4+ predominantly in the range 280–350 nm for photon energies greater than 21.5 eV. These assignments are confirmed by action spectra in which the excitation energy of the vacuum-UV radiation is scanned with detection at a specific (dispersed) wavelength. Using the single-bunch mode of the synchrotron, lifetimes of all the emitting states have been measured. The lifetimes of the unassigned emitting state in SiF3,SiF3, the Ã 1B1Ã 1B1state of SiF2,SiF2, and the D̃ 2A1D̃ 2A1 state of SiF+4SiF4+ are 3.9±0.7,3.9±0.7, 11.2±1.5,11.2±1.5, and 9.16±0.02 ns,9.16±0.02 ns, respectively. This is the first measurement of the lifetimes of these excited states in SiF3SiF3 and SiF2.SiF2. The decay from the ã 3B1ã 3B1 state of SiF2SiF2has a fast component of 2.6±0.4 ns.2.6±0.4 ns. We conclude that the lifetime of the ã 3B1ã 3B1state of SiF2SiF2 is either as low as 2.6 ns or too high (τ>∼200 ns)(τ>∼200 ns) to measure with the timing profile of the single-bunch mode of BESSY 1. If the latter interpretation is correct, as seems likely for a spin-forbidden phosphorescenceto the 1A11A1 ground state, the 2.6 ns component could be the lifetime of intersystem crossing from higher vibrational levels of the ã 3B1ã 3B1 state of SiF2SiF2 into its ground state.
Original languageEnglish
Pages (from-to)720-729
JournalJournal of Chemical Physics
Volume107
Issue number3
DOIs
Publication statusPublished - 15 Jul 1997

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