Theoretical study of the electronic transition moments for the d3Πg-a3Πu (SWAN) and e3Πg-a3Πu (Fox-Herzberg) bands in C2

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.

Laser-induced fluorescence excitation spectra of the A 'II,-X 'Z: electronic transition have been recorded in the laser wavelength range 386-463 nm using a novel source of rotationally cold but vibrationally excited C1. A large number of new transitions are observed and we report here on some promin

The emission cross sections have been measured for the diagonal Fulcherdl bands (3p311u, u'+ 2s3Z& IJ" with u'= u"= 0, 1,2,3) in Ha by means of electron impact. Prom these the excitation cross section for the 3p3$, state has been dctermined. We found a maximum value of 4.2 (k 0.8) X 1O-'8 cm2 at 15.

We describe the results of optical-optical double-resonance spectroscopy of Cl2 on the 1,(3Pt)+-(hvl)-A%( 1,) + (hu, )-X 'Zi transition. The state-selective transition from the ground state of Cl2 to the A 'lI( I,) state was observed by scanning the pump laser ( hu, ) frequency, while furing the pro

Optical-optical double resonance spectroscopy was used to study the 1 g ( 3 P 1 ) ion-pair state of I 2 correlating to I -( 1 S) + I + ( 3 P 1 ) at the dissociation limit. We gained access to the 1 g ( 3 P 1 ) state though the A 3 (1 u ) state in the (1 + 1) photon-excitation scheme. The pump laser