Structure and properties of the argon–ozone van der Waals molecule
- 1 December 1979
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 71 (11) , 4487-4491
- https://doi.org/10.1063/1.438201
Abstract
The Ar–O3 van der Waals complex is produced in a nozzle expansion and studied by radio frequency and microwave molecular beam spectroscopy. The rotational constants are A=12 686, B=1947, C=1716 MHz. Stark effect data produce the following dipole moment components: μa=0.1010, μb=0.0, μc=0.4643 D. These molecular properties are only consistent with a structure in which the Ar atom is 3.42 Å from the center of mass of O3 and the O3 plane is approximately perpendicular to the axis connecting Ar to the O3 center of mass. Large amplitude vibrational motion of O3 within the complex is observed.Keywords
This publication has 17 references indexed in Scilit:
- Crossed molecular beam studies on the interaction potentials for F(2P) + Ne,Ar,Kr(1S)The Journal of Chemical Physics, 1979
- Molecular beam electric resonance study of formaldehyde, thioformaldehyde, and keteneThe Journal of Chemical Physics, 1977
- Centrifugal distortion in ArHClThe Journal of Chemical Physics, 1976
- Structure and Bonding of KrClF: Intermolecular Force Fields in Van Der Waals MoleculesCanadian Journal of Physics, 1975
- Intermolecular potential between an atom and a linear molecule: The structure of ArOCSThe Journal of Chemical Physics, 1975
- Millimeter wave spectrum of ozoneJournal of Molecular Spectroscopy, 1971
- Self-consistent-field wave functions, energies, multipole moments, diamagnetic susceptibility and shielding tensors, and electric field gradient tensors for nitrogen dioxide and ozoneMolecular Physics, 1971
- Theory of long-range dispersion forcesDiscussions of the Faraday Society, 1965
- Van der Waals Forces for Hydrogen and the Inert GasesProceedings of the Physical Society, 1961
- Molecular quadrupole momentsQuarterly Reviews, Chemical Society, 1959