Recombination of simple molecular ions studied in storage ring: dissociative recombination of H2O+

S. Rosén; A. Derkatch; J. Semaniak; A. Neau; A. Al-Khalili; A. Le Padellec; L. Vikor; R. Thomas; H. Danared; M. af Ugglas; M. Larsson

doi:10.1039/A909314A

Recombination of simple molecular ions studied in storage ring: dissociative recombination of H₂O⁺

S. Rosén,^a A. Derkatch,^a J. Semaniak,^a A. Neau,^a A. Al-Khalili,^a A. Le Padellec,^a L. Vikor,^a R. Thomas,^c H. Danared,^d M. af Ugglas^d and M. Larsson^a

Author affiliations

^a Department of Physics, Stockholm University, P.O. Box 6730, Stockholm, Sweden

^b Institute of Physics, Pedagogical University, Kielce, Poland

^c FOM-Institute for Atomic and Molecular Physics, Kruislaan 407, Amsterdam, The Netherlands

^d Manne Siegbahn Laboratory, Stockholm, Sweden

Abstract

Dissociative recombination of vibrationally relaxed H₂O⁺ ions with electrons has been studied in the heavy-ion storage ring CRYRING. Absolute cross-sections have been measured for collision energies between 0 eV and 30 eV. The energy dependence of the cross-section below 0.1 eV is found to be much steeper than the E⁻¹ behaviour associated with the dominance of the direct recombination mechanism. Resonant structures found at 4 eV and 11 eV have been attributed to the electron capture to Rydberg states converging to electronically excited ionic states. Complete branching fractions for all dissociation channels have been measured at a collision energy of 0 eV. The dissociation process is dominated by three-body H + H + O breakup that occurs with a branching ratio of 0.71.

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Recombination of simple molecular ions studied in storage ring: dissociative recombination of H₂O⁺

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