The close-coupling method for ion-atom collisions using atomic orbital and molecular orbitals as basis functions are reviewed. Recent development using hyperspherical close-coupling method is discussed. Examples for a few collision systems are examined to resolve differences among theoretical calculations and experiments
Includes bibliographical references (leaves 162-165)A numerical method has been used to compute exci...
Includes bibliographical references (leaves 162-165)A numerical method has been used to compute exci...
Includes bibliographical references (leaves 162-165)A numerical method has been used to compute exci...
The close-coupling method for ion-atom collisions using atomic orbital and molecular orbitals as bas...
We present detailed comparisons between the two quantal approaches--hyperspherical close-coupling an...
The substantial progress that has occurred during the 1990s in the field of electron-atom-collision ...
The substantial progress that has occurred during the 1990s in the field of electron-atom-collision ...
The electron-capture cross-sections for O8+ and Ar8+ collisions in the energy range from 1 eV/amu to...
We review the development of the time-dependent close-coupling method to study atomic and molecular ...
The purpose of this project was to produce accurate cross sections for collisionally induced reactio...
A theory for ion-atom collisions at low energies based on the hyperspherical close-coupling (HSCC) m...
A large volume of data of these cross sections are required for solving problems of radiological phy...
We review the development of the time-dependent close-coupling method to study atomic and molecular ...
We review the development of the time-dependent close-coupling method to study atomic and molecular ...
The accurate solution of the Schrödinger equation (SE) for electron-impact collisions leading to dis...
Includes bibliographical references (leaves 162-165)A numerical method has been used to compute exci...
Includes bibliographical references (leaves 162-165)A numerical method has been used to compute exci...
Includes bibliographical references (leaves 162-165)A numerical method has been used to compute exci...
The close-coupling method for ion-atom collisions using atomic orbital and molecular orbitals as bas...
We present detailed comparisons between the two quantal approaches--hyperspherical close-coupling an...
The substantial progress that has occurred during the 1990s in the field of electron-atom-collision ...
The substantial progress that has occurred during the 1990s in the field of electron-atom-collision ...
The electron-capture cross-sections for O8+ and Ar8+ collisions in the energy range from 1 eV/amu to...
We review the development of the time-dependent close-coupling method to study atomic and molecular ...
The purpose of this project was to produce accurate cross sections for collisionally induced reactio...
A theory for ion-atom collisions at low energies based on the hyperspherical close-coupling (HSCC) m...
A large volume of data of these cross sections are required for solving problems of radiological phy...
We review the development of the time-dependent close-coupling method to study atomic and molecular ...
We review the development of the time-dependent close-coupling method to study atomic and molecular ...
The accurate solution of the Schrödinger equation (SE) for electron-impact collisions leading to dis...
Includes bibliographical references (leaves 162-165)A numerical method has been used to compute exci...
Includes bibliographical references (leaves 162-165)A numerical method has been used to compute exci...
Includes bibliographical references (leaves 162-165)A numerical method has been used to compute exci...
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