K. Komaguchi et al., EVALUATION OF THE DISTANCE BETWEEN THE HYDROGEN-ATOM AND HYDROGEN MOLECULE IN THE TUNNELING REACTION HD-]H+D-2 IN AN ARGON MATRIX AT 20 K(D), Chemical physics letters, 268(5-6), 1997, pp. 493-497
A hydrogen atom-hydrogen molecule pair entirely isolated in an Ar matr
ix has been investigated by high-resolution ESR spectroscopy from 4.2
to 23 K. A doubler ESR spectrum of the hydrogen atom was separated by
51.18 mT and further split isotropically into nine lines with superhyp
erfine coupling constants of ca. 0.06 mT and peak intensities of 1:1:2
:1:2: 1:2:1:1 in a solid Ar matrix containing HD (3.3 mol%) at 20 K. T
he superhyperfine structure can be attributed to H-HD and H-D-2 pairs.
The H-D-2 pair is a product of the tunneling reaction HD + D --> HD2.
The mean distance between the hydrogen atom and the hydrogen molecule
in the tunneling reaction in the Ar matrix at 20 K is experimentally
determined to be 1.73 Angstrom.