Abstract. The energy and angular distribution of projectile electrons emitted in asymmetric collisions is calculated within the quantum mechanical electron impact approximation. The rise of the differential cross section in the backward direction is shown to follow closely the behaviour of electrons elastically scattered from the target. As an example, (H, Ne) and (H, Ar) collisions are studied and the results are compared with experiment. 1
The ejection of low-energy target electrons by heavy projectiles is calculated in a second Born appr...
Abstract. For the collision systems 1.4MeVu- ' U3'+ and 5.9 MeVu- ' U65+ on Ne, trans...
Abstract. The impact parameter dependence of the capture of a target K-shell electron by a light pro...
Abstract. A systematic study of the doubly differential cross sections for the electron emis-sion oc...
Abstract. The ejection of electrons from light target atoms by bare heavy projectiles is described b...
We consider electron loss from hydrogen-like projectiles in elastic and inelastic collisions with at...
Abstract. A double peak structure is predicted in the spectrum of electrons which are emitted from t...
Abstract. The ionisation of the projectile in collisions with heavy targets is described by means of...
We study single- and double-electron loss from heavy heliumlike projectiles in ultrarelativistic col...
Vita.A method used in the calculation of inner shell ionization in asymmetric ion-atom collisions is...
We review the recent progress in the theory of relativistic ion–atom collisions where the projectile...
We have studied the angular distributions of electron emission in collisions of bare ions with H2 or...
International audienceLow-energy collisions between different rare gas dimers (Ar2, Ne2) and differe...
The theory of electron loss from projectile-ions in relativistic ion–atom collisions is extended to ...
We present the total ionization cross section and spin asymmetry at projectile energies ranging from...
The ejection of low-energy target electrons by heavy projectiles is calculated in a second Born appr...
Abstract. For the collision systems 1.4MeVu- ' U3'+ and 5.9 MeVu- ' U65+ on Ne, trans...
Abstract. The impact parameter dependence of the capture of a target K-shell electron by a light pro...
Abstract. A systematic study of the doubly differential cross sections for the electron emis-sion oc...
Abstract. The ejection of electrons from light target atoms by bare heavy projectiles is described b...
We consider electron loss from hydrogen-like projectiles in elastic and inelastic collisions with at...
Abstract. A double peak structure is predicted in the spectrum of electrons which are emitted from t...
Abstract. The ionisation of the projectile in collisions with heavy targets is described by means of...
We study single- and double-electron loss from heavy heliumlike projectiles in ultrarelativistic col...
Vita.A method used in the calculation of inner shell ionization in asymmetric ion-atom collisions is...
We review the recent progress in the theory of relativistic ion–atom collisions where the projectile...
We have studied the angular distributions of electron emission in collisions of bare ions with H2 or...
International audienceLow-energy collisions between different rare gas dimers (Ar2, Ne2) and differe...
The theory of electron loss from projectile-ions in relativistic ion–atom collisions is extended to ...
We present the total ionization cross section and spin asymmetry at projectile energies ranging from...
The ejection of low-energy target electrons by heavy projectiles is calculated in a second Born appr...
Abstract. For the collision systems 1.4MeVu- ' U3'+ and 5.9 MeVu- ' U65+ on Ne, trans...
Abstract. The impact parameter dependence of the capture of a target K-shell electron by a light pro...
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