2D electron momentum distributions for transfer ionization in fast proton Helium collisions

2D electron momentum distributions for transfer ionization in fast proton Helium collisions

The momentum distribution of the electron in the reaction p+He \(\rightarrow\) H + He\(^{2+}\) + \(e\) is measured for projectile energies \(E_p\)=300 and 630 keV/u at very small scattering angles of hydrogen. We mainly present two dimensional distributions parallel \((k_{||})\) and perpendicular \(...

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Veröffentlicht in:arXiv.org 2013-05
Hauptverfasser: Schoeffler, M S, Chuluunbaatar, O, Houamer, S, Galstyan, A G, Titze, J N, Schmidt, L Ph H, Jahnke, T, Schmidt-Boecking, H, Doerner, R, Popov, Yu V, Gusev, A A, C Dal Cappello
Format: Artikel
Sprache:eng
Schlagworte:
Born approximation
Electron emission
Electrons
Helium
Ionization
Momentum
Physics - Atomic Physics
Plane waves
Projectiles
Scattering angle
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Zusammenfassung:The momentum distribution of the electron in the reaction p+He \(\rightarrow\) H + He\(^{2+}\) + \(e\) is measured for projectile energies \(E_p\)=300 and 630 keV/u at very small scattering angles of hydrogen. We mainly present two dimensional distributions parallel \((k_{||})\) and perpendicular \((k_{\perp})\) to the projectile beam. Theoretical calculations were carried out within the Plane Wave First Born Approximation (PWFBA), which includes both electron emission mechanisms, shake-off and sequential capture and ionization. It is shown that electron correlations in the target wave function play the most important role in the explanation of experimentally observed backward emission. Second order effects have to be involved to correctly describe the forward emission of the electron.
ISSN:2331-8422
DOI:10.48550/arxiv.1305.4358