Molecular beam studies of weak interactions for open‐shell systems: The ground and lowest excited states of rare gas oxides
V Aquilanti, R Candori, F Pirani - The Journal of chemical physics, 1988 - pubs.aip.org
Integral cross sections as a function of velocity for scattering of ground state oxygen atoms
by the rare gases have been measured at thermal energy. Analysis of atomic sublevels by a
Stern–Gerlach magnet allows a control of the relative contribution from different fine
structure scattering channels. The results are analyzed using an adiabatic decoupling
scheme to derive the interaction as a spherical part and an anisotropic component, from
which information is obtained on the six lowest states of the rare gas oxides and on …
by the rare gases have been measured at thermal energy. Analysis of atomic sublevels by a
Stern–Gerlach magnet allows a control of the relative contribution from different fine
structure scattering channels. The results are analyzed using an adiabatic decoupling
scheme to derive the interaction as a spherical part and an anisotropic component, from
which information is obtained on the six lowest states of the rare gas oxides and on …
Molecular beam studies of weak interactions for open‐shell systems: The ground and lowest excited states of ArF, KrF, and XeF
V Aquilanti, E Luzzatti, F Pirani, GG Volpi - The Journal of chemical …, 1988 - pubs.aip.org
Absolute integral cross sections for scattering of ground state fluorine atoms by argon,
krypton, and xenon have been measured in the thermal velocity range. Information has been
obtained on the long range interaction and using a technique for magnetic analysis of
substates of F atoms, a characterization is given for the bonding in the ground and the two
lowest excited states of these rare gas fluorides. The potentials are represented as a
spherical part and an anisotropic component, which have been obtained in an adiabatic …
krypton, and xenon have been measured in the thermal velocity range. Information has been
obtained on the long range interaction and using a technique for magnetic analysis of
substates of F atoms, a characterization is given for the bonding in the ground and the two
lowest excited states of these rare gas fluorides. The potentials are represented as a
spherical part and an anisotropic component, which have been obtained in an adiabatic …
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