Add to ORKGA quantum mechanical theory for the radiative capture (REC) of a target electron by a heavy, swift projectile is formulated, allowing for resonant nuclear scattering through the use of distorted waves. Calculations are performed for the systems 016, Ne2~ within the exact strong potential Born theory and the impulse approximation. Similar structures as in the case of Coulomb capture are found in the transition probability. PACS: 34.70.+e; 25.70.Ef 1
The resonant process of nuclear excitation by electron transition (NEET) in highly charged ions is i...
The forward electron emission with simultaneous photon production during the scattering of...
Within the semiclassical strong potential Born approximation (SPB) we have calculated the electron c...
Abstract. The strong potential Born theory for charge transfer in fast, asymmetric ion-atom collisio...
Abstract. A quantum mechanical formulation of the distorted-wave Born theory is presented, taking fu...
Abstract. The influence of nuclear reactions on the capture of a target electron by a light, energet...
The process of Radiative Electron Capture (REC) in relativistic collisions of high-Z ions with low-Z...
The resonant process of nuclear excitation by electron capture (NEEC) in collisions involving highly...
Abstract. A comparison between the impulse approximation ( IA) and the strong-potential Born approx...
We consider the role of the Coulomb boundary conditions (CBC) for the radiative electron capture (RE...
In the resonant process of nuclear excitation by electron capture (NEEC), a free electron is capture...
The relative importance of the two mechanisms for the capture of a target electron by a fast, heavy ...
Abstract: The cross section for radiative capture of bound electrons (REC) by fast heavy ions is cal...
Radiative electron capture by highly-charged, heavy ions is re-investigated within the framework of ...
I give a complete systematic derivation of a new approximation for the calculation of the cross sect...
The resonant process of nuclear excitation by electron transition (NEET) in highly charged ions is i...
The forward electron emission with simultaneous photon production during the scattering of...
Within the semiclassical strong potential Born approximation (SPB) we have calculated the electron c...
Abstract. The strong potential Born theory for charge transfer in fast, asymmetric ion-atom collisio...
Abstract. A quantum mechanical formulation of the distorted-wave Born theory is presented, taking fu...
Abstract. The influence of nuclear reactions on the capture of a target electron by a light, energet...
The process of Radiative Electron Capture (REC) in relativistic collisions of high-Z ions with low-Z...
The resonant process of nuclear excitation by electron capture (NEEC) in collisions involving highly...
Abstract. A comparison between the impulse approximation ( IA) and the strong-potential Born approx...
We consider the role of the Coulomb boundary conditions (CBC) for the radiative electron capture (RE...
In the resonant process of nuclear excitation by electron capture (NEEC), a free electron is capture...
The relative importance of the two mechanisms for the capture of a target electron by a fast, heavy ...
Abstract: The cross section for radiative capture of bound electrons (REC) by fast heavy ions is cal...
Radiative electron capture by highly-charged, heavy ions is re-investigated within the framework of ...
I give a complete systematic derivation of a new approximation for the calculation of the cross sect...
The resonant process of nuclear excitation by electron transition (NEET) in highly charged ions is i...
The forward electron emission with simultaneous photon production during the scattering of...
Within the semiclassical strong potential Born approximation (SPB) we have calculated the electron c...