Vibronic spectroscopy

Vibronic spectroscopy is a branch of molecular spectroscopy concerned with vibronic transitions: the simultaneous changes in electronic and vibrational energy levels of a molecule due to the absorption or emission of a photon of the appropriate energy. In the gas phase, vibronic transitions are accompanied by changes in rotational energy also.

Vibronic spectra of diatomic molecules have been analysed in detail;[1] emission spectra are more complicated than absorption spectra. The intensity of allowed vibronic transitions is governed by the Franck–Condon principle. Vibronic spectroscopy may provide information, such as bond length, on electronic excited states of stable molecules. It has also been applied to the study of unstable molecules such as dicarbon, C2, in discharges, flames and astronomical objects.[2][3]

  1. ^ Herzberg, Gerhard (1950). Molecular spectra and molecular structure (2nd. ed.). Van Nostrand.Available for download at community books
  2. ^ Hollas, p. 211.
  3. ^ Parsons, M. L. (1971). Flame Spectroscopy : Atlas of Spectral Lines. Springer. ISBN 9780306651564.