Coulomb wave discrete variable method for calculation of the fully differential cross sections of antiproton impact ionization of hydrogen atom

Coulomb wave discrete variable method for calculation of the fully differential cross sections of antiproton impact ionization of hydrogen atom

We studied nonrelativistic collision of antiproton with hydrogen atom by solving time-dependent Schrodinger equation numerically. Coulomb wave function discrete variable method (CWDVR) had been used to calculate electron wave function evolution, while projectile defined classically, moving along the...

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Veröffentlicht in:arXiv.org 2019-05
Hauptverfasser: Gombosuren, Zorigt, Lochin, Khenmedekh, Chuluunbaatar, Aldarmaa
Format: Artikel
Sprache:eng
Schlagworte:
Antiparticles
Antiprotons
Ejection
Electrons
Hydrogen
Ionization
Ionization cross sections
Ions
Mathematical analysis
Projectiles
Scattering angle
Schrodinger equation
Time dependence
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Zusammenfassung:We studied nonrelativistic collision of antiproton with hydrogen atom by solving time-dependent Schrodinger equation numerically. Coulomb wave function discrete variable method (CWDVR) had been used to calculate electron wave function evolution, while projectile defined classically, moving along the straight line trajectories with constant velocity. The ionization amplitude calculated by projection of the wave function into continuum wave function of the hydrogen electron. The fully differential cross sections calculated depending on projectile impact energy, scattering angle and electron ejection energy and angles. Our results in good agreement with the relativistic calculation results.
ISSN:2331-8422