Experimentally, the intermetallic compound Mn(4)FeGe(3) has been recently shown to exhibit enhanced magnetic properties and spin polarization compared to the Mn(5)Ge(3) parent compound. The present ab initio study focuses on the effect of Fe substitution on the electronic and magnetic properties of the compound. Our calculations reveal that the changes on the Fermi surface of the doped compound are remarkable, and provide explanations for the enhanced spin polarization observed. Finally, we show that it is indeed possible to tune the degree of spin polarization upon Fe doping, thus making the Mn(5-x)Fe(x)Ge(3) intermetallic alloy very promising for future spintronic applications. (c) 2008 American Institute of Physics.
Spin polarization tuning in Mn(5-x)Fe(x)Ge(3)
Stroppa A;
2008
Abstract
Experimentally, the intermetallic compound Mn(4)FeGe(3) has been recently shown to exhibit enhanced magnetic properties and spin polarization compared to the Mn(5)Ge(3) parent compound. The present ab initio study focuses on the effect of Fe substitution on the electronic and magnetic properties of the compound. Our calculations reveal that the changes on the Fermi surface of the doped compound are remarkable, and provide explanations for the enhanced spin polarization observed. Finally, we show that it is indeed possible to tune the degree of spin polarization upon Fe doping, thus making the Mn(5-x)Fe(x)Ge(3) intermetallic alloy very promising for future spintronic applications. (c) 2008 American Institute of Physics.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
