Charge transfer in collisions between diatomic molecular ions and atomic hydrogen using merged beams

Charge transfer in collisions between diatomic molecular ions and atomic hydrogen using merged beams

A merged-beams technique is used to measure charge transfer (CT) cross sections for the (O2+,D) and (CO+,D) systems from 2 keV/u to 20 eV/u, which covers a wide range of energy: high energies where the collision is ro-vibrationally frozen to low energies where ro-vibrational modes become important....

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Bibliographic Details
Published in:Physical review. A, Atomic, molecular, and optical physics Vol. 84; no. 6
Main Authors: Andrianarijaona, V. M., Draganić, I. N., Seely, D. G., Havener, C. C.
Format: Journal Article
Language:English
Published: United States 27-12-2011
Subjects:
08 HYDROGEN
ATOMIC IONS
CROSS SECTIONS
ELECTRONS
EXCITED STATES
HYDROGEN
MOLECULAR IONS
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Summary:A merged-beams technique is used to measure charge transfer (CT) cross sections for the (O2+,D) and (CO+,D) systems from 2 keV/u to 20 eV/u, which covers a wide range of energy: high energies where the collision is ro-vibrationally frozen to low energies where ro-vibrational modes become important. At high energies where the differences in the Q-values of the CT process can be neglected, the cross sections all converge to (7.5 0.5) x 10-16 cm2 at 2 keV/u and are consistent with a H2+ + H calculation which assumes the ro-vibrational modes are frozen. Toward lower velocities, (O2+,D) and (CO+,D) have consistently similar cross sections, as one might expect from the comparison of their characteristic vibrational time, but diverge below 60eV/u. In contrast, previously reported merged-beams measurements for (D2+,H), a system with fewer electrons on the molecular core, no electronic excited states and with relatively less charge transfer channels, shows a decreasing cross section toward lower energies. These different trends are compared to merged-beams measurements of charge transfer for several 4+ atomic ions that have a different number of electrons on the core.
Bibliography:DE-AC05-00OR22725
USDOE Office of Science (SC)
ISSN:1050-2947
1094-1622
DOI:10.1103/PhysRevA.84.062716