Absolute cross sections for collision-induced depolarized scattering of light in krypton and xenon

Author： Frommhold Lothar Hong Ki Proffitt M.H.

ISSN： 1362-3028

Source： Molecular Physics, Vol.35, Iss.3, 1978-03, pp. : 691-700

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Abstract

Depolarized Raman spectra of binary collisional pairs of atoms in krypton and xenon are obtained at gas densities of 1–10 amagat. Absolute intensities relative to a known rotational transition of nitrogen are determined. For light of 4880 Å wavelength incident in the x -direction, polarized in the z -direction and scattered in the y -direction of a cartesian frame x , y , z , at a frequency shift of -12 cm -1 , the differential scattering cross section per unit wavenumber band times volume, is found to be 1·10 × 10 -52 cm 6 ± 10 per cent for krypton, and 4·76 × 10 -52 cm 6 ± 10 per cent for xenon, if the sum of both polarizations is considered. Wave-mechanical and classical computations reproduce both the shape and the intensity of the experimental spectra if the so-called point-dipole model of the anisotropy of the polarizability of collisional pairs of atoms is used. Other models of the anisotropy are seen to be overcorrected by these criteria.