Ola Al-Hagan scite author profile

The distorted-wave Born approximation (DWBA) has been one of the most successful theoretical approaches for treating electron collisions with complicated atoms, and recently the DWBA has been successfully extended to treat electron-impact ionization of molecules. The purpose of this paper is to give an overview of that development and to provide a summary of the recent experimental and theoretical works examining low to intermediate energy electron-impact single ionization of molecules.

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(e,2e) ionization of helium and the hydrogen molecule: signature of two-centre interference effects

Casagrande

Naja

Mezdari

et al. 2008

J. Phys. B: At. Mol. Opt. Phys.

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Relative (e,2e) triply differential cross sections (TDCS) are measured for the ionization of the helium atom and the hydrogen molecule in coplanar asymmetric geometry at a scattered electron energy of 500 eV and ejected electron energies of 205, 74 and 37 eV. The He experimental results are found to be in very good agreement with convergent close-coupling calculations (CCC). The H2 experimental results are compared with two state-of-the-art available theoretical models for treating differential electron impact ionization of molecules. Both models yield an overall good agreement with experiments, except for some intensity deviations in the recoil region. Similar (e,2e) works were recently published on H2 with contrasted conclusions to the hypothesis that the two H nuclei could give rise to an interference pattern in the TDCS structure. Murray (2005 J. Phys. B: At. Mol. Opt. Phys. 38 1999) found no evidence for such an effect, whereas Milne-Brownlie et al (2006 Phys. Rev. Lett. 96 233201) reported its indirect observation. In this work, based on a direct comparison between experimental results for He and H2, we observe an oscillatory pattern due to these interference effects, and for the first time the destructive or constructive character of the interference is observed, depending on the de Broglie wavelength of the ejected electron wave. The experimental finding is in good agreement with the theoretical prediction by Stia et al (2003 J. Phys. B: At. Mol. Opt. Phys. 36 L257).

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Search for interference effects in electron impact ionization of aligned hydrogen molecules

Senftleben¹,

Pflüger²,

Ren³

et al. 2010

J. Phys. B: At. Mol. Opt. Phys.

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Five-fold differential cross sections (5DCS) for electron impact ionization of a diatomic molecule have been explored experimentally as a function of molecular alignment. Using H 2 as a test system we exploited dissociative ionization by 200 eV electrons to obtain the alignment of the internuclear axis. Separation of groundstate ionization from autoionization is discussed. 5DCS are investigated for the direct channel and found to be in good agreement with M3DW calculations discarding at the same time a simple two-centre interference model discussed recently in literature.

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Dynamical (e, 2e) studies using tetrahydrofuran as a DNA analog

Colyer

Bellm

Lohmann

et al. 2010

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Triple differential cross sections for the electron-impact ionization of the outer valence orbital of tetrahydrofuran have been measured using the (e, 2e) technique. The measurements have been performed with coplanar asymmetric kinematics, at an incident electron energy of 250 eV and at an ejected electron energy of 10 eV, over a range of momentum transfers. The experimental results are compared with theoretical calculations carried out using the molecular three-body distorted wave model. The results obtained are important for gaining an understanding of electron driven processes at a molecular level and for modeling energy deposition in living tissue.

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Ola Al-Hagan

Atomic and molecular signatures for charged-particle ionization

The Distorted-Wave Born Approach for Calculating Electron-Impact Ionization of Molecules

(e,2e) ionization of helium and the hydrogen molecule: signature of two-centre interference effects

Search for interference effects in electron impact ionization of aligned hydrogen molecules

Dynamical (e, 2e) studies using tetrahydrofuran as a DNA analog

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