Structural Form of Vibronic Bands in Crystals

15 December 1964

journal article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 41 (12) , 3939-3943
https://doi.org/10.1063/1.1725839

Abstract

A method is given to calculate the line structure of vibronic bands for a given coupling function p(s), which latter incorporates the frequency and equilibrium change of the oscillator s. The form of the single lines is generally given in terms of their moments. For the important case, where p(s) decomposes into a sum of Gaussian or Lorenzian functions, the line functions are written explicitly. In absorption the lines must appear above the low-energy part of the background. In emission the opposite is true. Other features are also explained. The theory is restricted to T=0, yet can be easily extended to finite, but low temperatures (at higher temperatures there is no vibronic structure).

Keywords

OSCILLATIONS

This publication has 5 references indexed in Scilit:

Divalent Rare Earth Spectra Selection Rules and Spectroscopy of Sr ${Cl}_{2}$ : ${Sm}^{2 +}$
Physical Review B, 1963
Zyklische Veränderungen an den inkretorischen Drüsenzellen im Prostomium des Polychaeten Platynereis dumerilii als Grundlage der Schwärmperiodizität
Zeitschrift für Naturforschung B, 1959
Application of the Method of Generating Function to Radiative and Non-Radiative Transitions of a Trapped Electron in a Crystal
Progress of Theoretical Physics, 1955
Moment Singularity Analysis of Vibration Spectra
Physical Review B, 1954
The Franck-Condon Principle and Its Application to Crystals
The Journal of Chemical Physics, 1952