Predissociation and hyperfine structure of the B3Πou+ state of Br2

IF molecules were prepa.red in a miaowave disckuge by using C3FpI Cheptafluoro-2-iodopropane) or by the direct reaction X2 + F2 \_ The hyperfine structure of the rotational transitions f + 1 -f = 54 of the nirational level u' = 3 and 6 -5 of U' = 4 in the excited electronic state B 3 n e+ of IF has

We present a theoretical calculation of predissociation lifetimes for the vibrational levels of the H2 molecule in the 2 311a state. Our results predict that vibrational lifetimes decrease with t, up to u= 8 and then remain practically constant. Agreement with available experimental data is good. Fi

The Na 2 4 3 ⌸ g state has been studied by continuous-wave (cw) perturbation-facilitated optical-optical double resonance (PFOODR) fluorescence excitation and resolved fluorescence spectroscopy. The absolute vibrational numbering was determined by resolved fluorescence to the a 3 ⌺ u ϩ state. The OO

Line shifts of rovibrational levels of the state of the b 'TI, state of Liz caused by rotational coupling to the a 'Xc state have been determined both theoretically and experimentally. Calculated and empirical unshifted term values of the b 'n, state are found to be in excellent agreement. The calcu

The optogalvanic spectrum and the emission spectrum of the highly excited Hz and Dz in a dc discharge have been investigated. Five bands of the triplet systems for Hz and D2 were observed in the region of 16130 to 17440 cm-': between the c 'II, state and the h 'Xl, g 'C: , i 'iI,, and j '4 states an