Rotational spectra, structure, Kr-83 nuclear quadrupole coupling constant, and the dipole moment of the Kr-benzene dimer
1992; American Institute of Physics; Volume: 97; Issue: 8 Linguagem: Inglês
10.1063/1.463793
ISSN1520-9032
AutoresT. D. Klots, T. Emilsson, H. S. Gutowsky,
Tópico(s)Molecular spectroscopy and chirality
ResumoRotational spectra were observed for the Kr-82, Kr-83, Kr-84, and Kr-86 isotopic species of the Kr-benzene dimer with the Mark II Balle-Flygare Fourier transform microwave spectrometer. The spectra are those of a symmetric top, with the Kr on the symmetry axis of the benzene. In the most abundant Kr-84 benzene dimer the rotational constants B0, DJ, and DJK were found to be 795.6821(1) MHz, 1.315(1) kHz, and 7.895(4) kHz, respectively. R, the Kr to benzene center-of-mass distance, is 3.663 Å and the zero-point vibrational bending of the benzene with respect to R gives an average angular displacement of 16.6°. The Kr-83 quadrupole coupling constant was determined experimentally to be −5.201(5) MHz and the dipole moment, 0.136(2) D. A theoretical prediction of these electrically induced properties gives results for a distributed multipole model which are superior to those using central multipoles.
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