Comparison of reactivity of Ar(3P0) and Ar(3P2) metastable states. Rate constants for quenching by Kr and CO

Vacuum UV emission from the products of quenching of Ar(3Po) and Ar(3Pz) by several reagents has been compared. The Iarge differences suggest that AI (3 PO) and Ar C3 Pz) preferentially yield respectively the D (l/2) and B (l/2) excited states of A&r\* or ArCl\*, which show specific, but very Mferen

The reactions of the lowest metast&bIe states of Ar, Rr and Xe with XeF2 were studied in a Bowing after$ow appamtus; XeF emission (from D \*111,2 and B 'C\* states) was observed in all cases. me toti rate constants (cm3 molecde-r S-I) for XeF\* formation were determined as 75 X l@' -Xe(3P2); 64 X lo

The rate constants for the deactivation of Ar 3Pz metastables by 26 different molecules were measured and the corresponding cross sections calculated. The measurements were done in a "flowing'. afterglow system; the Ar 3p\* being produced by a low power microwave discharge. The concentration of Ar '

The violet emission spectrum (B\* Z-X' C) of the CN radical observed by the collision of HCN with metastable AI(~P, ?) atoms was analyzed. The effective rotational temperature of the CN(B2C) radical, 3s estimated from a band e&elope analysis, is about 2000°K. The disrributions of the excess energy t

Absolute rate constants for the reaction of O(3P) atoms with n-butane (kz) and NO(M = Ar) (k3) have been determined over the temperature range 298-439 K using a flash photolysis-NO2 chemiluminescence technique. The Arrhenius esprcssions obtained were k2 = 2.5 X 10 -11exp[-(4170 f 300)/RT] cm3 molecu

Rate constants have been measured for \*he vibrational deactivation of the 15 pm band of CO2 in the temperature range 300 te 150 K by the calktson partners CH3F. CO2, N2, Ar and Kr. The CO2 was ~~mtion~y excited by (VV) transfer from C&r whtch had been pumped with a CO2 laser and Its deactivatton mo