Investigation of the K(2S, 2P)–Hg interaction at collision energies between 0.5 and 6 eV

1 January 1986

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

Vol. 84 (1) , 181-191
https://doi.org/10.1063/1.450168

Abstract

Measurements of total differential cross sections for the scattering of laser‐excited K(4 ²P₃_/₂) atoms by ground state mercury atoms have been performed in a crossed beam experiment at center‐of‐mass energies between 0.5 and 6 eV. Characteristic features of the cross section are two well resolved rainbow structures which we can assign to the ∑ and the Π branch of the excited state potential in the scope of the elastic approximation. At energies above 2.1 eV we observe an additional structure in the cross section at large angles which shows the same dependence on the polarization as the amplitude of the ∑ rainbow. This is attributed to a shoulder in the repulsive part of the B ∑ potential. The simultaneously measured differential cross sections for the scattering of K(²S) atoms by mercury have been used to determine the repulsive portion of the ground state potential by inversion, making use of the precisely known well of the potential for this system.

Keywords

This publication has 24 references indexed in Scilit:

Potential parameters for the K(4P)–rare gas Π interaction
The Journal of Chemical Physics, 1982
Differential scattering cross sections and the A 2Π potentials for the systems NaAr, NaKr, and NaXe
The Journal of Chemical Physics, 1981
Measurement and evaluation of differential scattering cross sections for Na²P_3/2with Hg
Journal of Physics B: Atomic and Molecular Physics, 1978
The interpretation of experimental scattering cross sections with pseudopotential calculations for the alkali-mercury interaction
Journal of Physics B: Atomic and Molecular Physics, 1977
Principles and theoretical interpretation of the electron scattering by laser excited atoms
Journal of Physics B: Atomic and Molecular Physics, 1974
Transitions among the 3p²P states of sodium induced by collisions with helium
Journal of Physics B: Atomic and Molecular Physics, 1973
Determination of Intermolecular Potentials by the Inversion of Molecular Beam Scattering Data. III. High Resolution Measurements and Potentials for K–Hg and Cs–Hg
The Journal of Chemical Physics, 1972
Born-Mayer-Type Interatomic Potential for Neutral Ground-State Atoms with $Z = 2$ to $Z = 105$
Physical Review B, 1969
Repulsive Interaction Potentials between Rare-Gas Atoms. Heteronuclear Two-Center Systems
Physical Review B, 1964
Repulsive Interaction Potentials between Rare-Gas Atoms. Homonuclear Two-Center Systems
Physical Review B, 1963