Temperature dependence for the removal of I(5 2P12) by HBr

The collisional deactivation of excited iodine atoms I( 5ps\*P,,2) by I2 and O2 has been studied as a function of temperature from 295 to 600 K. The decay of the excited iodine atom concentration following dye laser pbotolysis of molecular I2 was detected by time-resolved fluorescence at 1.3 15 pm.

The ratio of rate constants kF+HBr/kF+H2 has been determined by a discharge-flow-mass spcctrometric technique and was found to be independent of temperature in the range 203 to 298 K. Based on reported results fork,,,, it is concluded that k,,,,, exhibits an Arrhenius temperature dependence in this

## Abstract The temperature dependence of the rate coefficient for the reaction, OH + HBr has been reinvestigated at low temperatures (__T__ = 48–224 K) by using uniform supersonic flow reactors with laser induced fluorescence detection. This paper presents two forms of global fits: __k__(__T__) =

A method is described for the phot~le~c me~~ment of the time-resolved atomic absorption by electronically excited iodine atoms, 1(5'Prn), generated by pulsed irradiation-A kinetic investigation of the decay of these excited atoms yields a vaIlle for the quenching rate constant by mo?ecuku oxygen, th

Electronic energy transfer between I atoms and 02 molecules, O2(a 1A) + I(2P3/2) 4-~ O2(X 3Y'. -) + I(2P1/2 ), is a process of central importance in chemical oxygen-iodine laser (COIL) systems. Rate constants for the forward and reverse steps are well defined for room temperature. However, supersoni