2013
DOI: 10.1103/physrevlett.111.013003
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Ejection of Quasi-Free-Electron Pairs from the Helium-Atom Ground State by Single-Photon Absorption

Abstract: We investigate single photon double ionization (PDI) of helium at photon energies of 440 and 800 eV. We observe doubly charged ions with close to zero momentum corresponding to electrons emitted back-to-back with equal energy. These slow ions are the unique fingerprint of an elusive quasi-free PDI mechanism predicted by Amusia et al. nearly four decades years ago [J. Phys. B 8, 1248Phys. B 8, , (1975] . It results from the non-dipole part of the electromagnetic interaction. Our experimental data are in exce… Show more

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Cited by 50 publications
(44 citation statements)
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“…E 1 =c is the scaling one would expect if the photon momentum couples to the electron and not to the nucleus. This supports the intuitive explanation that the QFM is a process where the electron pair absorbs the photon while the nucleus remains a spectator [9][10][11] absorbing none of the photon's linear momentum, energy, or angular momentum. The QFM contributes only very close to equal energy sharing.…”
supporting
confidence: 77%
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“…E 1 =c is the scaling one would expect if the photon momentum couples to the electron and not to the nucleus. This supports the intuitive explanation that the QFM is a process where the electron pair absorbs the photon while the nucleus remains a spectator [9][10][11] absorbing none of the photon's linear momentum, energy, or angular momentum. The QFM contributes only very close to equal energy sharing.…”
supporting
confidence: 77%
“…1, one observes that the nondipole enhancement is extremely obvious at low momenta, which becomes more and more noticeable with the increase in photon energy. Such a kind of nondipole-induced enhancement at low ion momentum has previously been explained with the quasifree mechanism (QFM) [10,11,34]. The QFM, which contributes to the pure-quadrupole yield, can be taken as a benchmark to examine the calculations.…”
mentioning
confidence: 99%
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“…In these cases many delicate mechanisms of interaction can manifest themselves. These can be contribution from higher order terms in the Born series, with prominent examples being the turn-up effect in (e,2e) electron momentum spectroscopy of atoms [1], effects of the photon momentum in (γ,2e) [2,3] and the dipole Cooper minimum in photoionization [4,5], etc.…”
mentioning
confidence: 99%