Add to ORKGScattering angle differential cross sections for the He+ + He single electron capture process are studied using plane wave Born approximation models for projectile energies between 180 keV and 1.89 MeV. Within this simplistic framework, we study the effects of the frozen core approximation by performing a full 5-Body calculation that explicitly includes all particles in the collision and comparing it with a single bound state model that neglects the bound electron in the projectile and a double bound state model that neglects the inactive electron in the target atom. Results are compared with experiment and we show that inclusion of the inactive electron in the perturbation potential is more important than inclusion in the wave functions....
The prior form of four-body boundary-corrected first Born (CB1-4B) method is applied to calculate th...
Text includes handwritten formulasDifferential charge exchange cross sections are presented for ^4He...
Integral cross sections for optically allowed electronic-state excitations of atoms and molecules by...
Scattering angle differential cross sections for the He+ + He single electron capture process are st...
Differential cross sections (DCS) for single electron capture from helium by heavy ion impact are ca...
Electron capture processes play an important role in many physical systems, from fusion reactors to ...
Single-electron capture in ground state from several biologically relevant molecules by $${\mathrm{H...
The differential and total cross sections for single charge exchange in p + He collisions have been ...
The distorted-wave Born approximation has been very successful for treating electron-impact ionizati...
The distorted-wave Born approximation has been very successful for treating electron-impact ionizati...
In this work, two classical models which have been proposed to describe He atoms in collision proces...
Aims. The elastic and electron-capture processes of He+ ions with ground helium atoms are very impor...
The electron-loss cross section of He+ ions impinging upon noble-gas targets (2≤Z2≤36) is calculated...
Ionization of mono-electron and multi-electron target atoms has been studied at di®erent impact ener...
Processes for charge transfer into He2+ colliding with the atomic isotopes hydrogen (H), deuterium (...
The prior form of four-body boundary-corrected first Born (CB1-4B) method is applied to calculate th...
Text includes handwritten formulasDifferential charge exchange cross sections are presented for ^4He...
Integral cross sections for optically allowed electronic-state excitations of atoms and molecules by...
Scattering angle differential cross sections for the He+ + He single electron capture process are st...
Differential cross sections (DCS) for single electron capture from helium by heavy ion impact are ca...
Electron capture processes play an important role in many physical systems, from fusion reactors to ...
Single-electron capture in ground state from several biologically relevant molecules by $${\mathrm{H...
The differential and total cross sections for single charge exchange in p + He collisions have been ...
The distorted-wave Born approximation has been very successful for treating electron-impact ionizati...
The distorted-wave Born approximation has been very successful for treating electron-impact ionizati...
In this work, two classical models which have been proposed to describe He atoms in collision proces...
Aims. The elastic and electron-capture processes of He+ ions with ground helium atoms are very impor...
The electron-loss cross section of He+ ions impinging upon noble-gas targets (2≤Z2≤36) is calculated...
Ionization of mono-electron and multi-electron target atoms has been studied at di®erent impact ener...
Processes for charge transfer into He2+ colliding with the atomic isotopes hydrogen (H), deuterium (...
The prior form of four-body boundary-corrected first Born (CB1-4B) method is applied to calculate th...
Text includes handwritten formulasDifferential charge exchange cross sections are presented for ^4He...
Integral cross sections for optically allowed electronic-state excitations of atoms and molecules by...