info:eu-repo/semantics/article
Proton and Hydrogen Transport through Hydrogen Environments: Ionization and Stripping
Fecha
2020-12-23Registro en:
Cariatore, Nelson Daniel; Schultz, D. R.; Proton and Hydrogen Transport through Hydrogen Environments: Ionization and Stripping; IOP Publishing; Astrophysical Journal Supplement Series; 252; 1; 23-12-2020; 1-23
0067-0049
CONICET Digital
CONICET
Autor
Cariatore, Nelson Daniel
Schultz, D. R.
Resumen
Data are presented over a wide range of impact energies describing the ionization or stripping probability, projectile energy loss, and ejected electron and recoiling target energies and angles for proton and hydrogen passage through hydrogen astrophysical environments. These kinematic and reaction data are tabulated at three levels of detail for use in heavy-particle (H+, H) and secondary-electron transport simulations: (1) the integral scattering cross section and average values of the distributions of energy and angle of the particles, (2) the singly differential cross sections as a function of particle energy and angle, and (3) a subset of the many possible doubly differential cross sections as functions of the particle energy and angle chosen to be most relevant to transport simulations.