Add to ORKGAbstract. The ionisation of the projectile in collisions with heavy targets is described by means of the Faddeev expansion. The series is cut off after five terms which means an inclusion of higher-order interactions of the electron with both the target and the projectile in a symmetric way. This approximation is compared with several theories suggested in the literature. Numerical calculations are presented for the energy distribution of electrons emitted in the forward direction in the case of (H, Ne) collisions. 1
Vita.A method used in the calculation of inner shell ionization in asymmetric ion-atom collisions is...
We study single- and double-electron loss from heavy heliumlike projectiles in ultrarelativistic col...
The forward electron emission with simultaneous photon production during the scattering of...
Abstract. The ejection of electrons from light target atoms by bare heavy projectiles is described b...
Abstract. The energy and angular distribution of projectile electrons emitted in asymmetric collisio...
Abstract. A double peak structure is predicted in the spectrum of electrons which are emitted from t...
A derivation of the impulse approximation for the capture of a target K-shell electron by a light pr...
Abstract. The spectral distribution of projectile electrons which are ejected into the forward direc...
The distorted-wave Born approximation has been very successful for treating electron-impact ionizati...
We review the recent progress in the theory of relativistic ion–atom collisions where the projectile...
The distorted-wave Born approximation has been very successful for treating electron-impact ionizati...
This paper reports the results of calculations of electron impact ionization cross sections for a va...
A second-order approximation to the Faddeev-Watson-Lovelace treatment of the rearrangement channel i...
Abstract. A systematic study of the doubly differential cross sections for the electron emis-sion oc...
Historically, the theoretical tool-box used to study heavy-particle atomic collisions was divided in...
Vita.A method used in the calculation of inner shell ionization in asymmetric ion-atom collisions is...
We study single- and double-electron loss from heavy heliumlike projectiles in ultrarelativistic col...
The forward electron emission with simultaneous photon production during the scattering of...
Abstract. The ejection of electrons from light target atoms by bare heavy projectiles is described b...
Abstract. The energy and angular distribution of projectile electrons emitted in asymmetric collisio...
Abstract. A double peak structure is predicted in the spectrum of electrons which are emitted from t...
A derivation of the impulse approximation for the capture of a target K-shell electron by a light pr...
Abstract. The spectral distribution of projectile electrons which are ejected into the forward direc...
The distorted-wave Born approximation has been very successful for treating electron-impact ionizati...
We review the recent progress in the theory of relativistic ion–atom collisions where the projectile...
The distorted-wave Born approximation has been very successful for treating electron-impact ionizati...
This paper reports the results of calculations of electron impact ionization cross sections for a va...
A second-order approximation to the Faddeev-Watson-Lovelace treatment of the rearrangement channel i...
Abstract. A systematic study of the doubly differential cross sections for the electron emis-sion oc...
Historically, the theoretical tool-box used to study heavy-particle atomic collisions was divided in...
Vita.A method used in the calculation of inner shell ionization in asymmetric ion-atom collisions is...
We study single- and double-electron loss from heavy heliumlike projectiles in ultrarelativistic col...
The forward electron emission with simultaneous photon production during the scattering of...