Kj. Boyle et al., Vacuum-UV fluorescence spectroscopy of BF3 and BCl3 in the range 9-22 eV: dispersed spectra and radiative lifetimes, J PHYS B, 32(11), 1999, pp. 2569-2582
Citations number
26
Categorie Soggetti
Physics
Journal title
JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS
The fluorescence processes following vacuum-UV (VUV) photoexcitation of BF3
and BCl3 in the energy range 9-22 eV have been studied using synchrotron r
adiation from the BESSY 1, Berlin source. The fluorescence is dispersed in
a secondary monochromator, whereby information on the nature of the emittin
g species is obtained. For excitation energies in the range 13-17 eV, photo
dissociation of Rydberg states of BF3 produces a substantial branching rati
o into two, possibly three, excited valence states of the BF2 free radical,
which fluoresce to the ground state. The dispersed spectra are compared wi
th predictions from ab initio calculations of the electronic spectroscopy o
f this radical. Fluorescence from BCl3 photoexcited in the range 9-22 eV is
more complicated, with emissions having already been observed and mostly a
ssigned in BCl2, BCl, BCl3+, BCl2+ and B. Using the single-bunch, pulsed mo
de of the BESSY 1 source, the radiative lifetimes of emitters from BCl3 lyi
ng in the range 3-100 ns have been measured. Our results for BCl3 are compa
red with data from other techniques. Where more than one emitter is excited
at a particular VUV energy, the dispersion of the induced fluorescence thr
ough a monochromator means that the lifetimes of the different emitters can
be differentiated.