The Rb 2 1 1 Π g electronic state by laser-induced fluorescence infrared Fourier transform spectroscopy

The laser-induced fluorescence (LIF) spectrum of the B 3 ⌸ 0 ϩ u -X 1 ⌺ g ϩ system of Br 2 was recorded by Fourier transform spectroscopy (FTS). The LIF spectra were obtained by using continuous-wave dye laser excitation in the spectral region 16 800 -18 000 cm Ϫ1 . About 1800 rotationally resolved

The laser-induced fluorescence or Rb, molecules has been obsewed in the 9000-I 2500 cm-' spcclral range after enci[aGon by a s~yryl 9 ring dye laser. The A'B; -+ X "; fluorescence speclra were recorded by Fourier transrorm specwoscopy. Accurale molecular consktnw were derived Ior the ground electron

From a comparison with the spectrum of NiF, a low-lying 2 ⌺ ϩ state is expected to lie in the first 2000 cm Ϫ1 above the ground X 2 ⌸ 3/ 2 state of NiCl. The identification of this 2 ⌺ ϩ (v ϭ 0) state (at 1768 cm Ϫ1 ) has been carried out through the analysis of two electronic transitions 2 ⌸ 3/2 -2

The radiative lifetimes of C$(A'II,, v'= 0 and 3) were determined by laser-induced fluorescence to be re(0) = 18.5 f 3 and ~(3)=11.4rt:2 cs. In addition, the lifetimes of C2(d311,, u'= 0 and 1) were measured as re =106+15 ns and 105+15 ns, respectiveiy. The error is 30.