Investigation of Charge Transfer in Low Energy D_2^+ + H Collisions using Merged Beams

V.M. Andrianarijaona; V.M. Andrianarijaona; R. Rejoub; R. Rejoub

Investigation of Charge Transfer in Low Energy $D_2^+$ + H Collisions using Merged Beams

ORAL

Abstract

The hydrogen - hydrogen(deuterium) molecular ion is the most fundamental ion-molecule two-electron system. Charge transfer proceeds through dynamically coupled electronic, vibrational and rotational degress of freedom. Using the ion-atom merged- beams apparatus at Oak Ridge National Lab we have measured absolute charge transfer cross sections for D$_2^+$ + H from keV/u collision energies where the collision is considered ``ro-vibrationally frozen'' to meV/u energies where collision times are long enough to sample vibrational and rotational modes. The molecular ions are extracted from an ECR ion source with a distribution of ro-vibrational states. The measurments benchmark high energy theory (Errea et al., NIMB 235, 362 (2005) and vibrationally specific adiabatic theory (Krstic PRA 66, 042717 (2002)).

^*Research supported by the Office of Fusion Energy Sciences and the Office of Basic Energy Sciences, U.S. DOE, Contract No. DE-AC05-00OR22725 with UT-Battelle, LLC.

May 20, 2009, 2:48 PM – May 20, 2009, 3:00 PM

Authors

V.M. Andrianarijaona
- Pacific Union College
- Pacific Union College, Angwin, California, 94508
V.M. Andrianarijaona
- Pacific Union College
- Pacific Union College, Angwin, California, 94508
R. Rejoub
- Oak Ridge National Laboratory
- Oak Ridge National Lab, Oak Ridge, TN 37831-6372
R. Rejoub
- Oak Ridge National Laboratory
- Oak Ridge National Lab, Oak Ridge, TN 37831-6372