Electron localization in dissociating H₂^+ by retroaction of a photoelectron onto its source

M. Waitz , D. Aslit\"urk , N. Wechselberger , H. K. Gill , J. Rist , F. Wiegandt , C. Goihl , G. Kastirke

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M. Weller T. Bauer D. Metz F. P. Sturm J. Voigtsberger S. Zeller F. Trinter G. Schiwietz T. Weber J. B. Williams M. S. Sch\"offler L. Ph. H. Schmidt T. Jahnke R. D\"orner

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classification ⚛️ physics.atom-ph physics.atm-clus

keywords dissociatingphotoelectronbreakingelectronontoretroactionsymmetryalong

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We investigate the dissociation of $H_2^+$ into a proton and a $H^0$ after single ionization with photons of an energy close to the threshold. We find that the $p^+$ and the $H^0$ do not emerge symmetrically in case of the $H_2^+$ dissociating along the $1s\sigma_g$ ground state. Instead, a preference for the ejection of the $p^+$ in the direction of the escaping photoelectron can be observed. This symmetry breaking is strongest for very small electron energies. Our experiment is consistent with a recent prediction by Serov and Kheifets [Phys. Rev. A 89, 031402 (2014)]. In their model, which treats the photoelectron classically, the symmetry breaking is induced by the retroaction of the long range Coulomb potential onto the dissociating $H_2^+$.

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Electron localization in dissociating H₂^+ by retroaction of a photoelectron onto its source

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