Using density-functional theory calculations we investigate the energetic electronic and magnetic properties of 3d transition metals adsorption on hydrogen-passivated germanium nanowire along [0 01] direction It is found that most of the adatoms prefer to bind on the HH site while the Sc adatom prefers to the Top site The atoms of good conducting metals such as Cu and Zn form weak bonding with the wire however those such as Ti V Fe Co and Ni have relative larger binding energies In addition various types of wires can be obtained depending on the adatom species including nonmagnetic metals (Sc or Cu adsorption) and semiconductors (Ni or Zn adsorption) weak-ferromagnetic metals (Ti or V adsorption) ferromagnetic semiconductor (Cr adsorption) and more interesting the ferromagnetic half-metals (Mn Fe or Co adsorption) with 100% spin-polarization at the Fermi level These ferromagnetic wires should have potential applications in the fields of quasi-one-dimensional spintronics devices Detail analysis of the density of states indicates that the ferromagnetism originates mainly from spin-split of the TM-3d states Furthermore the effect of on-site Coulomb interaction on the stability of the three ferromagnetic ha

• 出版日期2010-12-1
• 单位陕西师范大学; 西安交通大学