Add to ORKGWithin the context of eikonal scattering theory, a generalized optical model potential approximation to the nucleus-nucleus multiple scattering series is used in an abrasion-ablation collision model to predict abrasion cross sections for relativistic projectile heavy ions. Unlike the optical limit of Glauber theory, which cannot be used for very light nuclei, the abrasion formalism is valid for any projectile target combination at any incident kinetic energy for which eikonal scattering theory can be utilized. Results are compared with experimental results and predictions from Glauber theory
The quasi-elastic scattering of two nuclei is considered in the high-energy optical model. Energy lo...
Elastic collisions and energy transfer between gases with separate Maxwellian velocity distribution
Interaction of high velocity particles with gaseous targets using electrostatic particle accelerato
Within the context of a double-folding optical potential approximation to the exact nucleus-nucleus ...
Diatomic heavy particle collisions and elastic scattering and inelastic processes involving electron...
The fragmentation of high-energy galactic heavy ions by nuclear interactions with arbitrary target n...
The fragmentation of target nuclei by relativistic protons and heavy ions is described within the co...
This is a review of the theoretical background, experimental techniques, and phenomenology of what i...
An energy-dependent, perturbation expansion solution for heavy ion transport in one dimension is use...
Quantum-mechanical optical-model methods for calculating cross sections for the fragmentation of hig...
An as yet unsolved problem in space radiation protection is the necessary relation between the exter...
An optical model description of momentum transfer in relativistic heavy ion collisions, based upon c...
A formalism is developed for evaluating the momentum distribution for proton production in nuclear a...
Methods to describe the charge-to-mass dispersion distributions of projectile prefragments are prese...
A simple geometrical model (often quoted in literature as the Glauber model) of heavy ion collisions...
The quasi-elastic scattering of two nuclei is considered in the high-energy optical model. Energy lo...
Elastic collisions and energy transfer between gases with separate Maxwellian velocity distribution
Interaction of high velocity particles with gaseous targets using electrostatic particle accelerato
Within the context of a double-folding optical potential approximation to the exact nucleus-nucleus ...
Diatomic heavy particle collisions and elastic scattering and inelastic processes involving electron...
The fragmentation of high-energy galactic heavy ions by nuclear interactions with arbitrary target n...
The fragmentation of target nuclei by relativistic protons and heavy ions is described within the co...
This is a review of the theoretical background, experimental techniques, and phenomenology of what i...
An energy-dependent, perturbation expansion solution for heavy ion transport in one dimension is use...
Quantum-mechanical optical-model methods for calculating cross sections for the fragmentation of hig...
An as yet unsolved problem in space radiation protection is the necessary relation between the exter...
An optical model description of momentum transfer in relativistic heavy ion collisions, based upon c...
A formalism is developed for evaluating the momentum distribution for proton production in nuclear a...
Methods to describe the charge-to-mass dispersion distributions of projectile prefragments are prese...
A simple geometrical model (often quoted in literature as the Glauber model) of heavy ion collisions...
The quasi-elastic scattering of two nuclei is considered in the high-energy optical model. Energy lo...
Elastic collisions and energy transfer between gases with separate Maxwellian velocity distribution
Interaction of high velocity particles with gaseous targets using electrostatic particle accelerato