Convergent-close-coupling calculations for excitation and ionization processes of electron-hydrogen collisions in Debye plasmas

Convergent-close-coupling calculations for excitation and ionization processes of electron-hydrogen collisions in Debye plasmas

Electron-hydrogen scattering in weakly coupled hot-dense plasmas has been investigated using the convergent-close-coupling method. The Yukawa-type Debye-Hckel potential has been used to describe the plasma screening effects. The target structure, excitation dynamics, and ionization process change dr...

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Bibliographic Details
Main Authors: Zammit, M., Fursa, Dmitry, Bray, Igor
Other Authors: RANZCR / AIR / FRO / ACPSEM
Format: Journal Article
Published: American Physical Society 2010
Subjects:
Scattering
Atomic-Hydrogen
Helium
Dense-Plasma
Potentials
Impact Ionization
Online Access:http://hdl.handle.net/20.500.11937/36746
Description
Summary:Electron-hydrogen scattering in weakly coupled hot-dense plasmas has been investigated using the convergent-close-coupling method. The Yukawa-type Debye-Hckel potential has been used to describe the plasma screening effects. The target structure, excitation dynamics, and ionization process change dramatically as the screening is increased. Excitation cross sections for the 1s-2s,2p,3s,3p,3d and 2s-2p,3s,3p,3d transitions and total and total ionization cross sections for the scattering from the 1s and 2s states are presented. Calculations cover the energy range from thresholds to high energies (250 eV) for various Debye lengths. We find that as the screening increases, the excitation and total cross sections decrease, while the total ionization cross sections increase.

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