Collision of protons with carbon atoms of a graphene surface in the presence of adsorbed potassium

Abstract: In this work we study the frontal collision of protons with the carbon atoms of a graphene surface with a low coverage of adsorbed potassium. It is aimed at the analysis of the effect of the adsorbates in both charge exchange and electron emission processes, when the binary collision occurs between the proton and a carbon atom of the surface. The frontal collision with the K adsorbate, already analyzed and discussed in a previous work, is compared with the frontal collision with different carbon neighbors. In … Show more

“…Resonant electron capture by the projectile occurs when the electron affinity level lies below the Fermi level of the surface, while resonant electron loss to the surface occurs as the affinity level lies above the Fermi level. As far as we know, the image potential effect has been used to discuss graphite and graphene surfaces before, , so we also use it for the graphite surface here.…”

Unexpected Negative-Ion Conversion in Grazing Scattering of Negative Ions on HOPG

“…Resonant electron capture by the projectile occurs when the electron affinity level lies below the Fermi level of the surface, while resonant electron loss to the surface occurs as the affinity level lies above the Fermi level. As far as we know, the image potential effect has been used to discuss graphite and graphene surfaces before, , so we also use it for the graphite surface here.…”

Unexpected Negative-Ion Conversion in Grazing Scattering of Negative Ions on HOPG

Resonant charge transfer in the interaction of hyperthermal anions with a technical graphite-like conducting surface

Local effects during ion scattering on adsorbate-covered surfaces