Effect of rotational quantum states (J=0, 1) on the tunneling reaction H2+T→H+HT in xenon—hydrogen mixtures at 77 K

Autor: Fujitani Yoshiteru, Tachikawa Enzo, Aratono Yasuyuki, Miyazaki Tetsuo, M Masaki Nobuyuki
Rok vydání: 1993
Předmět:
Zdroj: Chemical Physics Letters. 214:301-304
ISSN: 0009-2614
DOI: 10.1016/0009-2614(93)85639-6
Popis: The effect of rotational quantum states ( J =0, 1) on the tunneling reaction H 2 +T→H+HT in solid Xe-H 2 -D 2 mixtures has been studied at 77 K. When T atoms are produced by a 6 Li(n, α)T reaction in xenon—hydrogen (1 mol%) mixtures, most recoil T atoms are thermalized before encountering the solute hydrogen at 1 mol% and react with H 2 and D 2 by tunneling to produce HT and DT. The ratio of HT to DT yields, [HT]/[DT], in the Xe- p -H 2 ( J =0)-D 2 mixtures is larger than the [HT]/[DT] ratio in Xe- n -H 2 -D 2 mixtures, where n -H 2 consists of 75% o -H 2 ( J =1) and 25% p -H 2 . The ratio of the rate constant for the tunneling reaction H 2 ( J =0) + T→H+HT to that for the tunneling reaction H 2 ( J =1) +T → H+HT, i.e. k (H 2 ( J =0)+T)/ k (H 2 ( J =1)+T), was estimated as 4±2 from HT yields.
Databáze: OpenAIRE