6533b7cffe1ef96bd1258e09

RESEARCH PRODUCT

Vibrational spectra and force constants of symmetric tops

F. LattanziH. BürgerP. SchulzC. Di Lauro

subject

Force constantInfraredChemistryAnharmonicityResolution (electron density)BiophysicsAnalytical chemistryResonanceCondensed Matter PhysicsMatrix elementFermi resonancePhysical and Theoretical ChemistryAtomic physicsMolecular BiologyVibrational spectra

description

The infrared spectrum of H3SiI in the 800–1050 cm-1 region has been recorded with a resolution of 0·04 cm-1 and rotationally analysed. Features related to the Fermi resonance between v 5 and v 3 + v 6 and to the Coriolis x, y resonance between v 2 and v 5 have been explained, and a set of vibration-rotation parameters for the three bands has been determined by least-squares calculations, σ(J, K) = 9·4 × 10-3 cm-1. The Fermi resonance matrix element |W 356| is found to be 3·7859(7) cm-1 and the vibrational frequencies are v 2 0 = 904·551(1), v 5 0 = 941·0746(8) and (v 3 + v 6)0 = 953·688(3) cm-1. The anharmonicity constant, x 36 = -1·745(9) cm-1, has been determined. Comparison is made with v 2/v 5/v 3 + v 6 of H3SiCl, H3SiBr and H3GeBr.

yearjournalcountryeditionlanguage
1983-04-20Molecular Physics
https://doi.org/10.1080/00268978300100861