Add to ORKGIn this paper we present a low-energy ion scattering (I,EIS) study of the mobility of Ag and Fe adatoms on the Ag(100) surface. We determined the onset temperature for Ag adatom diffusion on Ag(100) to be 160(5) K. From this value we estimated the activation energy barrier for self-diffusion on Ag(100) to be 0.40(5) eV. Single Fe adatoms on the Ag(100) surface were found to exchange site with Ag atoms from the first layer, starting at a temperature of 130(10) K.</p
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
We study the deposition and the very first steps of nucleation and growth of Ag on Pd(100) with ther...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
In this paper we present a low-energy ion scattering (I,EIS) study of the mobility of Ag and Fe adat...
Low-energy ion scattering (LEIS) measurements have been performed to study self-diffusion on a stepp...
In this paper we present a low-energy ion scattering (LEIS) study of the site exchange of Fe adatoms...
Low-energy ion scattering (LEIS) measurements have been performed to study self-diffusion on a stepp...
Low-energy ion scattering (LEIS) measurements have been performed to study self-diffusion on a stepp...
Low-energy ion scattering (LEIS) measurements have been performed to study self-diffusion on a stepp...
Low-energy ion scattering (LEIS) measurements have been performed to study self-diffusion on a stepp...
In this paper we present a low-energy ion scattering (LEIS) study of the site exchange of Fe adatoms...
In this paper we present a low-energy ion scattering (LEIS) study of the site exchange of Fe adatoms...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
We study the deposition and the very first steps of nucleation and growth of Ag on Pd(100) with ther...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
In this paper we present a low-energy ion scattering (I,EIS) study of the mobility of Ag and Fe adat...
Low-energy ion scattering (LEIS) measurements have been performed to study self-diffusion on a stepp...
In this paper we present a low-energy ion scattering (LEIS) study of the site exchange of Fe adatoms...
Low-energy ion scattering (LEIS) measurements have been performed to study self-diffusion on a stepp...
Low-energy ion scattering (LEIS) measurements have been performed to study self-diffusion on a stepp...
Low-energy ion scattering (LEIS) measurements have been performed to study self-diffusion on a stepp...
Low-energy ion scattering (LEIS) measurements have been performed to study self-diffusion on a stepp...
In this paper we present a low-energy ion scattering (LEIS) study of the site exchange of Fe adatoms...
In this paper we present a low-energy ion scattering (LEIS) study of the site exchange of Fe adatoms...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...
We study the deposition and the very first steps of nucleation and growth of Ag on Pd(100) with ther...
Mobilities of Cu and In atoms on a stepped Cu(100) surface were derived from low-energy ion scatteri...