Abstract
Double ionization of He and Ne by charged particle impact was explored in kinematically complete experiments measuring the final momenta of the two emerging electrons $({\mathbf{P}}_{e1}^{f},{\mathbf{P}}_{e2}^{f})$ and of the recoiling target ion ${\mathbf{P}}_{R}^{f}$. The momentum transfer from the $3.6\mathrm{MeV}/u$ ${\mathrm{Se}}^{28+}$ projectile to the electrons is found to be negligibly small. Thus distinct patterns observed in the ${\mathbf{P}}_{e1}^{f}$-versus- ${\mathbf{P}}_{e2}^{f}$ spectra sensitively reflect the details of the electrons' correlated motion. Classical calculations reasonably describe the data only when the $(e\ensuremath{-}e)$ interaction during the ionization reaction is included.
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