ROTATIONAL ANALYSIS OF SOME VIBRONIC BANDS IN THE $^{3}A_{u}-{^{1}}A_{g}$ TRANSITION OF GLYOXAL. SPIN SPLITTINGS IN THE LOWEST TRIPLET STATE OF THE ISOLATED $MOLECULE{^{1}}$

Spangler, L. H.; Pratt, D. W.; Birss, F. W.

ROTATIONAL ANALYSIS OF SOME VIBRONIC BANDS IN THE $^{3}A_{u}-{^{1}}A_{g}$ TRANSITION OF GLYOXAL. SPIN SPLITTINGS IN THE LOWEST TRIPLET STATE OF THE ISOLATED $MOLECULE{^{1}}$

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Date

1986

Authors

Spangler, L. H.

Pratt, D. W.

Birss, F. W.

Publisher

Ohio State University

Abstract

A rotational analysis of three vibronic bands ( $000,7 02$ , and $501$ ) in the laser-induced phosphorescence spectrum of glyoxal (CHO-CHD) has been performed. From this analysis we deduce the rotational, spin-rotation, and spin-spin (plus spin-orbit) constants of the lowest triplet state of the isolated molecule. $3 A u$ Glyoxal has been shown to exist in nearly the same trans-planar $(C 2 h)$ configuration as the lowest excited singlet state. Both geometries are very similar to that of the ground state. The dynamic implications of these structural findings are discussed. We also compare the spin splittings determined in this work with those previously measured in the condensed phase, using optically detected magnetic resonance methods.

Description

$1$ Work supported by NSF (CHE-8402996). Address of Spangler: MS-G738, LANL, Los Alamos, NM 87545. Address of Pratt: Department of Chemistry, University of Pittsburgh, Pittusbugh, PA 15260. Address of Birss: Department of Chemmistry, University of Alberta, Edmonton, Alberta, CANADA T6G2G2

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URI

http://hdl.handle.net/1811/17075

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Abstracts of OSU International Symposium on Molecular Spectroscopy 1980-1989

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