Title :
First-Principles Study on Atomistic Behaviors and Magnetism of Physisorpted Co and Fe Atoms on MgO
Author :
Chiho Kim ; Yong-Chae Chung
Author_Institution :
Dept. of Mater. Sci. & Eng., Hanyang Univ.
Abstract :
Surface diffusion behaviors for Fe and Co adatoms on the MgO (001) surface were investigated using first-principles calculations. The potential energy calculations revealed that Fe and Co adatoms favored the on O site as initial adsorption site. The adsorption energies were calculated to be 1.97 and 0.73 eV for Fe and Co, respectively. Surface diffusion after the adsorption on O site was occurred by passing through the bridge site on the surface and energy barrier for the process was 0.54 eV for both adatoms. The magnetic moment of Co atoms on O site was 3.15 muB and the value was significantly reduced at the bridge site as 2.99 muB, while the corresponding value in vacuum state was 3.50 muB. Interestingly, the magnetic moment for Co adatom at the bridge site was increased by 0.08 muB compared to the case of adsorbed Co on O site. Spin polarization values for adatoms at the adsorption sites on the substrate were ranged from 82.9% to 100%
Keywords :
ab initio calculations; adsorbed layers; cobalt alloys; electron spin polarisation; iron alloys; magnetic moments; magnetic multilayers; surface diffusion; Co-MgO; Fe-MgO; adatoms; adsorption energies; atomistic behaviors; first-principles calculations; magnetic moment; magnetic property; magnetism; potential energy calculations; spin polarization; surface diffusion; Atomic layer deposition; Bridges; Energy barrier; Iron; Magnetic moments; Magnetic properties; Potential energy; Substrates; Surface cleaning; Tunneling magnetoresistance; Co/MgO(001); Fe/MgO(001); first-principles calculations; magnetic property; surface diffusion;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.880083
