An overview is provided of the convergent close-coupling calculations for electron- impact on neutral beryllium, as well as its various ionic stages. The calculations were performed from near threshold to high energies with initial states having principal quantum number n ≤ 4. Excitation to states with n ≤ 5 and total ionisation cross sections have been calculated with an estimated accuracy of below 10% at all energies considered
Electron impact triple differential cross section (TDCS) results are reported for the single ionizat...
Aims. Inelastic processes in low-energy Be + H and Be+ + H− collisions are treated for the ...
Aims. Emission lines from ions in the Be-like isoelectronic sequence can be used for relia...
The B-spline R-matrix and the convergent close-coupling methods are used to study electron collision...
We report on calculation of electron-impact excitation cross sections for Li-like ions of boron and ...
The wave-packet convergent close-coupling approach is used to calculate integrated target excitation...
In this work we present a collisional–radiative model constructed for all ionization stages of beryl...
International audienceWe present in this paper quantum mechanical calculations for the electron impa...
State-selective single electron capture, excitation and ionization processes in proton collisions wi...
We present calculations of cross sections for electron- and positron-scattering from atomic berylliu...
The close-coupling method based on semiclassical impact parameter theory has been applied to p + Be3...
Abstract. Energy levels of doubly excited states of beryllium-like ions are calculated using the con...
The two-center atomic orbital close-coupling method is employed to study electron capture and excita...
This report concerns a program of computation of cross sections for electron impact excitation and i...
We provide cross sections and Maxwell rate coefficients for reactive collisions of slow electrons wi...
Electron impact triple differential cross section (TDCS) results are reported for the single ionizat...
Aims. Inelastic processes in low-energy Be + H and Be+ + H− collisions are treated for the ...
Aims. Emission lines from ions in the Be-like isoelectronic sequence can be used for relia...
The B-spline R-matrix and the convergent close-coupling methods are used to study electron collision...
We report on calculation of electron-impact excitation cross sections for Li-like ions of boron and ...
The wave-packet convergent close-coupling approach is used to calculate integrated target excitation...
In this work we present a collisional–radiative model constructed for all ionization stages of beryl...
International audienceWe present in this paper quantum mechanical calculations for the electron impa...
State-selective single electron capture, excitation and ionization processes in proton collisions wi...
We present calculations of cross sections for electron- and positron-scattering from atomic berylliu...
The close-coupling method based on semiclassical impact parameter theory has been applied to p + Be3...
Abstract. Energy levels of doubly excited states of beryllium-like ions are calculated using the con...
The two-center atomic orbital close-coupling method is employed to study electron capture and excita...
This report concerns a program of computation of cross sections for electron impact excitation and i...
We provide cross sections and Maxwell rate coefficients for reactive collisions of slow electrons wi...
Electron impact triple differential cross section (TDCS) results are reported for the single ionizat...
Aims. Inelastic processes in low-energy Be + H and Be+ + H− collisions are treated for the ...
Aims. Emission lines from ions in the Be-like isoelectronic sequence can be used for relia...
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