Intensity Distribution in the Spectrum of Molecular Light Scattering and Relaxation Effects in Liquids

Authors

  • B. Eshchanov Department of Physics, National University of Uzbekistan
  • Sh. Otajonov Department of Physics, National University of Uzbekistan
  • N. Solieva Department of Physics, National University of Uzbekistan
  • A. Isamatov Department of Physics, National University of Uzbekistan

DOI:

https://doi.org/10.15407/ujpe60.08.0795

Keywords:

orientation spectroscopy, molecular scattering of light, orientation motion of molecules in liquids, relaxation mechanism, relaxation time, fluctuation

Abstract

The structure and shape of the spectral bands of orientational molecular scattering of light in toluene are analyzed. The possibility of their use for obtaining information about the features of interactions of molecules is revealed. It is shown that the observed scattering regularities can be explained, by basing on the mechanism of hindered rotation of the molecules with regard for the specific intermolecular interaction in toluene.

Downloads

Published

2019-01-15

How to Cite

Eshchanov, B., Otajonov, S., Solieva, N., & Isamatov, A. (2019). Intensity Distribution in the Spectrum of Molecular Light Scattering and Relaxation Effects in Liquids. Ukrainian Journal of Physics, 60(8), 792. https://doi.org/10.15407/ujpe60.08.0795

Issue

Section

Soft matter