Journal article
The Na -H2 cation complex: Rotationally resolved infrared spectrum, potential energy surface, and rovibrational calculations
BLJ Poad, PJ Wearne, EJ Bieske, AA Buchachenko, DIG Bennett, J Kłos, MH Alexander
Journal of Chemical Physics | AMER INST PHYSICS | Published : 2008
DOI: 10.1063/1.3005785
Abstract
The rotationally resolved infrared spectrum of the Na+-H 2 cation complex is recorded in the H-H stretch region (4067-4118 cm-1) by monitoring the production of Na+ photofragments. Altogether 42 lines are identified, 40 of which are assigned to Ka =1-1 transitions (associated with complexes containing ortho- H2) and two tentatively assigned to Ka =0-0 transitions (associated with complexes containing para- H2). The Ka =1-1 subband lines were fitted using a Watson A -reduced Hamiltonian, yielding effective spectroscopic constants. The band origin is estimated as 4094.6 cm-1, a shift of -66.6 cm-1 with respect to the Q1 (0) transition of the free H2 molecule. The results demonstrate that Na+-H..
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Awarded by National Science Foundation
Funding Acknowledgements
B.L.J.P., P.J.W., and E.J.B.acknowledge financial support from the Australian Research Council. D. I. G. B., J.K., and M. H. A. would like to acknowledge financial support from the U.S. National Science Foundation under Grant No. CHE-0413743. Electronic structure calculations were performed on the OIT High Performance Computing Cluster (HPCC) of the University of Maryland.