The purpose of this thesis is to construct a numerically solvable quantum mechanical model describing the dynamics of the indirect mechanism of the dissociative recombination process of a molecular cation by electron impact. The model also describes vibrational excitation of a molecular cation by electron impact. The solution of this model is carried out by implementing a combination of finite elements, discrete variable representation and exterior complex scaling methods. This is then specifically applied to the dissociative recombination and vibrational excitation of H+ 2 by an incoming electron. The results can be used to test the accuracy of approximative methods and the programs expanded to cover the cases of other diatomics
The vibrational energy distribution and the degree of dissociation within a system of hydrogen and o...
We describe a simple model for electron-molecule collisions that has one nuclear and one electronic...
By combining electronic structure and scattering calculations, quasidiabatic potential energy surfac...
The purpose of this thesis is to construct a numerically solvable quantum mechanical model describin...
The purpose of this thesis is to construct a numerically solvable quantum mechanical model describin...
A two-dimensional model of the resonant electron-molecule collision processes with one nuclear and o...
A two-dimensional model of the resonant electron-molecule collision processes with one nuclear and o...
We present a simple two-dimensional model of the indirect dissociative recombination process. The mo...
We present a simple two-dimensional model of the indirect dissociative recombination process. The mo...
The purpose of this work and the project under which it was created is to develop, compare and valid...
Our approach to the dissociative recombination and competitive processes based on the multichannel q...
We present results of a theoretical study on dissociative recombination of the HCNH+, HCO+ and N2H+ ...
We present results of a theoretical study on dissociative recombination of the HCNH+, HCO+ and N2H+ ...
Abstract. The Lippmann-Schwinger (LS) equation for the K matrix is numerically solved for the collis...
We present results of a theoretical study on dissociative recombination of the HCNH+, HCO+ and N2H+ ...
The vibrational energy distribution and the degree of dissociation within a system of hydrogen and o...
We describe a simple model for electron-molecule collisions that has one nuclear and one electronic...
By combining electronic structure and scattering calculations, quasidiabatic potential energy surfac...
The purpose of this thesis is to construct a numerically solvable quantum mechanical model describin...
The purpose of this thesis is to construct a numerically solvable quantum mechanical model describin...
A two-dimensional model of the resonant electron-molecule collision processes with one nuclear and o...
A two-dimensional model of the resonant electron-molecule collision processes with one nuclear and o...
We present a simple two-dimensional model of the indirect dissociative recombination process. The mo...
We present a simple two-dimensional model of the indirect dissociative recombination process. The mo...
The purpose of this work and the project under which it was created is to develop, compare and valid...
Our approach to the dissociative recombination and competitive processes based on the multichannel q...
We present results of a theoretical study on dissociative recombination of the HCNH+, HCO+ and N2H+ ...
We present results of a theoretical study on dissociative recombination of the HCNH+, HCO+ and N2H+ ...
Abstract. The Lippmann-Schwinger (LS) equation for the K matrix is numerically solved for the collis...
We present results of a theoretical study on dissociative recombination of the HCNH+, HCO+ and N2H+ ...
The vibrational energy distribution and the degree of dissociation within a system of hydrogen and o...
We describe a simple model for electron-molecule collisions that has one nuclear and one electronic...
By combining electronic structure and scattering calculations, quasidiabatic potential energy surfac...