Kinetics of excited states of Br2 using laser excitation. Part 2.—Radiative lifetime and collisional deactivation of the B3Π(0 +u) state
Abstract
Selected ro-vibrational levels (ν′, J′) of the B3Π(0+u) excited state of Br2 have been excited with a pulsed, narrow-band dye laser. The dynamics of collisional and non-collisional processes involving stable, non-predissociated levels of the ν′= 2 state have been investigated. Weak transitions of the (2–2) band have been identified for this purpose in the laser excitation spectrum of Br2. Intensity anomalies in the excitation spectrum are discussed.
The radiative lifetime τR of the (2, J′) states of Br2(B) has been determined to be 12.4 ± 0.2 µs (1 σ); the agreement with data from the B–X absorption continuum is good.
The rate constants kQ,M(1 σ) for electronic quenching of Br2(B, ν′= 2) by Br2(X) and by Ar have been determined as kQ,Br2=(5.8 ± 0.3)× 10–11 cm3 molecule–1 s–1 and kQ,Ar=(1.7 ± 0.3)× 10–11 cm3 molecule–1 s–1. Thus, the quenching efficiencies of Br2(B) for both Br2 and Ar are relatively low, as has been found previously for quenching of Cl2(B), BrCl(B) and Br2(A).