Abstract
Charge transfer in molecular ion–neutral interactions can proceed through dynamically coupled electronic, vibrational, and rotational degrees of freedom. Using the upgraded 91°µÍř ion–atom merged–beams apparatus, absolute direct charge transfer is explored from keV/u collision energies where the collision is considered “ro–vibrationally frozen” to sub–eV/u collision energies where collision times are long enough to sample vibrational and rotational modes. Our first molecular ion measurement with the merged-beams apparatus has been performed for D2+ + H and is used to benchmark high energy sudden approximation theory and vibrational specific adiabatic theory for the (H2–H)+ complex. CT measurements have also been performed for D3+ + H from 2 eV/u to 2 keV/u and CO+ + H from 20 eV/u to 2000 eV/u. With straightforward improvements to the apparatus, we plan to extend our measurements to key "destructive" rate coefficients for H2+ and CH+ with H at temperatures relevant to the interstellar medium.