Author: Alves A.C.P. Hollas J.M.
Publisher: Taylor & Francis Ltd
ISSN: 1362-3028
Source: Molecular Physics, Vol.23, Iss.5, 1972-05, pp. : 927-945
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Abstract
The two most intense bands of the 370 nm electronic band system of tropolone have been rotationally analysed. They are separated by 18·93 cm -1 and it has been shown that the high wavenumber band is the 0 - -0 - (H 1 1 ) transition in what is almost certainly the internal hydrogen-bonding vibration v H : the low wavenumber band is the 0 + -0 + (0 0 0 ) transition. A rotational contour analysis of both bands shows that there is an intensity alternation in K a ″ such that the ratio K a ″ even : odd is 10 : 6 in the 0 + -0 + band and 6 : 10 in the 0 - -0 - band. The intensity alternation, the nearly equal intensities of the 0 + -0 + and 0 - -0 - bands, the separation of these two bands and the anharmonic behaviour of v H show that the separation of the 0 + and 0 - levels is small in the ground electronic state (probably less than 50 cm -1 ) and is 18·93 cm -1 larger in the excited electronic state. The 0 + -0 + and 0 - -0 - bands are both type B showing that the electronic transition is à 1 B 2 - X 1 A 1 and therefore &pgr;*-&pgr; rather than &pgr;*- n . The &pgr;*- n transition is probably shifted to high wavenumber by the internal hydrogen-bonding.
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