화학공학소재연구정보센터
Journal of Chemical Physics, Vol.110, No.16, 7821-7831, 1999
Experimental and theoretical determination of the magnetic dipole transition moment for the Br(4p(5))(P-2(1/2)<- P-2(3/2)) fine-structure transition and the quantum yield of Br(P-2(1/2)) from the 193 nm photolysis of BrCN
The integrated-absorption coefficients of several hyperfine lines of the magnetic dipole allowed transition of the bromine atom, Br, center at 3685.2 cm(-1) were measured, and a value for the square of the magnetic dipole transition moment of the Br atom was determined. A theoretical calculation for the magnetic dipole transition moment was also carried out using a relativistic ab initio atomic structure formulation. The theoretical value was in excellent agreement with the value predicted assuming pure LS coupling, and in reasonable agreement with experiment. The Br atom was generated in equal concentration with the cyano radical (CN) by the 193 nm photolysis of cyanogen bromine, BrCN. The CN radicals were titrated by the rapid reaction with C3H8 to generate HCN and a small amount of HNC. Both time-resolved and frequency-scanned infrared absorption spectroscopy were used to monitor the Br, HCN, and HNC species. The photolysis of BrCN at 193 nm produced both the ground state Br(P-2(3/2)) and the spin-orbit excited Br(P-2(1/2)) atoms, and the yield for the production of Br(P-2(1/2)) atoms was measured to be 0.31+/-0.01. The rate constants for the quenching of Br(P-2(1/2)) by BrCN and C3H8 at 293 K were also determined. [S0021-9606(99)01416-6].