Fluorescence of excited complexes of the 1P1 and 3P2 states of Hg 6s6p with xenon

The principal route for decay of Hg 6s6~(~P,) in xenon is shown to be bimolecular deactivation to the mercury ground state, with rate coefficient 9.1 x lo-l3 cm3 molecule-' s-l. , relaxation to the 3Po state plays a negligible role. The equilibrium constant of the reaction Hg(3P,) + Xe # HgXe(A 30')

The rate coefficient of the process Hg 6s6p( 'P 0-+3P, ) induced by nitrogen collisions has been measured over the range 285 to 340 K. The temperature variation closely matches that of the concentration of Nz( u= 1). The results support the electronic to vibrational energy-transfer mechanism for the

An expenmental method for pulsed mercury photoscnntisation at 1849 A is described, using a multi-electrode resonance lamp with low Hg vapour prcssurcs By analysing the time dependence of the delayed 2537 A radiation. induced by the deactwalion of He('P,) by NT. it is shown that the 'PI + 3 p translt

The excitation of the ~s"~P' and 2s2ps3Po autoionizing states of 01 by electron impact on atomic oxygen has been studied. Absolute cross section values from threshold to 300 eV have been obtained for the ~s"~P' state. Limited emission cross section data for the 2s2p5 3P0 and other partially radiatin

For the first time the radiative lifetimes of the metastable excimer 1(3P2) states of heteronuclear rare-gas molecules in the separated atom limit are calculated as functions of the vibrational excitation degree. An increase of the radiative lifetime with increasing vibrational quantum number or gas