Add to ORKGMethods to describe the charge-to-mass dispersion distributions of projectile prefragments are presented and used to determine individual isotope cross-sections or various elements produced in the fragmentation of relativistic argon nuclei by carbon targets. Although slight improvements in predicted cross-sections are obtained for the quantum mechanical giant dipole resonance (GDR) distribution when compared qith the predictions of the geometric GDR model, the closest agreement between theory and experiment continues to be obtained with the simple hypergeometric distribution, which treats the nucleons in the nucleus as completely uncorrelated
A critical need for NASA is the ability to accurately model the transport of heavy ions in the Galac...
A critical need for NASA is the ability to accurately model the transport of heavy ions in the Galac...
Heavy ions with energies of hundreds to thousands of MeV/nucleon are present in the Galactic Cosmic ...
The fragmentation of target nuclei by relativistic protons and heavy ions is described within the co...
Quantum-mechanical optical-model methods for calculating cross sections for the fragmentation of hig...
The fragmentation of high-energy galactic heavy ions by nuclear interactions with arbitrary target n...
The mechanism of particle evaporation was used to examine ablation effects in the fragmentation of 2...
Reliable methods of accurately and quickly estimating heavy fragment production cross sections are n...
The angular momentum independent statistical decay model is often applied using a Monte-Carlo simula...
A semiempirical abrasion-ablation model has been successful in generating a large nuclear database f...
Quantum-mechanical optical model methods for calculating cross sections for the fragmentation of gal...
Cross-section predictions with semi-empirical nuclear fragmentation models from the Langley Research...
We have measured the total charge changing cross sections as a function of energy for projectile _(3...
We have measured the total charge changing cross sections as a function of energy for projectile _(3...
The theory of galactic heavy ion fragmentation is furthered by incorporating a T matrix approach int...
A critical need for NASA is the ability to accurately model the transport of heavy ions in the Galac...
A critical need for NASA is the ability to accurately model the transport of heavy ions in the Galac...
Heavy ions with energies of hundreds to thousands of MeV/nucleon are present in the Galactic Cosmic ...
The fragmentation of target nuclei by relativistic protons and heavy ions is described within the co...
Quantum-mechanical optical-model methods for calculating cross sections for the fragmentation of hig...
The fragmentation of high-energy galactic heavy ions by nuclear interactions with arbitrary target n...
The mechanism of particle evaporation was used to examine ablation effects in the fragmentation of 2...
Reliable methods of accurately and quickly estimating heavy fragment production cross sections are n...
The angular momentum independent statistical decay model is often applied using a Monte-Carlo simula...
A semiempirical abrasion-ablation model has been successful in generating a large nuclear database f...
Quantum-mechanical optical model methods for calculating cross sections for the fragmentation of gal...
Cross-section predictions with semi-empirical nuclear fragmentation models from the Langley Research...
We have measured the total charge changing cross sections as a function of energy for projectile _(3...
We have measured the total charge changing cross sections as a function of energy for projectile _(3...
The theory of galactic heavy ion fragmentation is furthered by incorporating a T matrix approach int...
A critical need for NASA is the ability to accurately model the transport of heavy ions in the Galac...
A critical need for NASA is the ability to accurately model the transport of heavy ions in the Galac...
Heavy ions with energies of hundreds to thousands of MeV/nucleon are present in the Galactic Cosmic ...