Add to ORKGWe have developed a simulation code to study the energy loss distribution of energetic protons after traversing a thin amorphous carbon foil. The electronic interactions among the proton and the target electrons were taken into account using a realistic description of the solid, and the nuclear scattering events were considered by means of a Monte Carlo procedure. Our results compare fairly well with experimental energy loss distributions. Ó 1998 Elsevier Science B.V
It is usually well accepted that for swift protons, the induced backward and forward electron emissi...
We have investigated theoretically the electronic stopping of protons in different solid forms of ca...
We have simulated the passage of proton beams, having energies E 6 keV the energy loss into a graph...
We have developed a simulation code to study the energy loss distribution of energetic protons after...
The stopping power of amorphous carbon for fragmented swift H2+ molecular ions has been carried out ...
We analyze the dependence on the exit angle of the energy loss suffered by the fragment protons resu...
The stopping power of amorphous carbon for fragmented swift H2 molecular ions has been carried out u...
We have measured and calculated the energy distribution at zero exit angle of the proton fragments r...
Energy losses of fragment protons from 0.2- and 0.5-MeV/amu H2+ were measured at transmission throug...
Energy losses of fragment protons from 0.2- and 0.5-MeV/amu H2+ were measured at transmission throug...
We have performed computer simulations of the trajectory followed by each proton resulting from the ...
International audienceIt is usually well accepted that for swift protons, the induced backward and f...
International audienceIt is usually well accepted that for swift protons, the induced backward and f...
We analyze the dependence on the exit angle of the energy loss suffered by the fragment protons resu...
The energy loss of H3+-molecule beams interacting with amorphous carbon targets has been calculated,...
It is usually well accepted that for swift protons, the induced backward and forward electron emissi...
We have investigated theoretically the electronic stopping of protons in different solid forms of ca...
We have simulated the passage of proton beams, having energies E 6 keV the energy loss into a graph...
We have developed a simulation code to study the energy loss distribution of energetic protons after...
The stopping power of amorphous carbon for fragmented swift H2+ molecular ions has been carried out ...
We analyze the dependence on the exit angle of the energy loss suffered by the fragment protons resu...
The stopping power of amorphous carbon for fragmented swift H2 molecular ions has been carried out u...
We have measured and calculated the energy distribution at zero exit angle of the proton fragments r...
Energy losses of fragment protons from 0.2- and 0.5-MeV/amu H2+ were measured at transmission throug...
Energy losses of fragment protons from 0.2- and 0.5-MeV/amu H2+ were measured at transmission throug...
We have performed computer simulations of the trajectory followed by each proton resulting from the ...
International audienceIt is usually well accepted that for swift protons, the induced backward and f...
International audienceIt is usually well accepted that for swift protons, the induced backward and f...
We analyze the dependence on the exit angle of the energy loss suffered by the fragment protons resu...
The energy loss of H3+-molecule beams interacting with amorphous carbon targets has been calculated,...
It is usually well accepted that for swift protons, the induced backward and forward electron emissi...
We have investigated theoretically the electronic stopping of protons in different solid forms of ca...
We have simulated the passage of proton beams, having energies E 6 keV the energy loss into a graph...