J.B. Ozenne scite author profile

An experimental system for the study of electron-molecule scattering at high resolution is described. Synchrotron radiation from the synchrotron radiation source (SRS) at the SERC Daresbury laboratory is used to photoionize Ar at threshold (78.65 nm). The resulting photoelectrons are formed into a beam of energy spread 3.5 meV (FWHM) and crossed with a Campargue-type supersonic molecular beam. The primary electron beam energy can be varied over the range 0.04-20.0 eV. An electrostatic hemispherical monochromator with a narrow acceptance cone (+or-6 degrees ) together with a position-sensitive detector provides energy analysis of the scattered electrons. In addition a second detector comprising a cascaded pair of microchannel plates and a high-voltage anode can record without energy analysis those electrons scattered over a much wider angular range (90+or-30 degrees ). The performance of the apparatus is illustrated with data on O2, N2, SF6, NO and CO2.

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Translational spectroscopy of neutralization-reionization double-collision processes of Ar+ ions at keV energies

Durup¹,

Parlant²,

Appell³

et al. 1977

Chemical Physics

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State-selected ion–molecule reactions: N+2(v)+H2→N2+H+2 and Ar+(2P J) +H2→Ar+H+2

Henri

Lavollée

Dutuit

et al. 1988

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Stateselected ionmolecule reactions: Charge transfer and atomic rearrangement processes in thermal energy collisions of H2 +(X;v)+N2 and of N2 +(X,A;v) + H2 State selected ion-molecule reactions by a TESICO technique. V. N2 +(v)+Ar→N2+Ar+ J. Chem. Phys. 77, 834 (1982); 10.1063/1.443899 Stateselected ion-molecule reactions by a threshold electron-secondary ion coincidence (TESICO) technique. I. Apparatus and the reaction H2 ++H2→H3 ++H

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J.B. Ozenne

A state-selected study of charge transfer at collision energies below 4 eV using synchrotron radiation and guided beam techniques

A high-resolution synchrotron photoionization spectrometer for the study of low-energy electron-molecule scattering

Translational spectroscopy of neutralization-reionization double-collision processes of Ar+ ions at keV energies

State-selected ion–molecule reactions: N+2(v)+H2→N2+H+2 and Ar+(2P J) +H2→Ar+H+2

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