Title :
Electrically controlled spin injection into a ferroelectric semiconductor
Author :
Liu, X. ; Burton, J.D. ; Zhuravlev, M.Y. ; Tsymbal, E.Y.
Author_Institution :
Dept. of Phys. & Astron., Univ. of Nebraska-Lincoln, Lincoln, NE, USA
Abstract :
This study demonstrates that ferroelectric polarization can be used as a control parameter to tune the spin-polarization of injected carrier from a ferromagnetic metal into an electron-doped ferroelectric semiconductor. A SrRuO3/n-BaTiO3 ferromagnetic metal-ferroelectric semiconductor heterojunction is considered. First-principles calculations are performed using the plane-wave pseudopotential code within the local spin-density approximation. It is shown that at low electron doping, the spin polarization of conductance in this junction changes its sign by switching the ferroelectric polarization in n-BaTiO3.
Keywords :
APW calculations; ab initio calculations; barium compounds; density functional theory; dielectric polarisation; electrical conductivity; ferroelectric semiconductors; ferroelectric switching; ferromagnetic materials; pseudopotential methods; semiconductor doping; semiconductor heterojunctions; spin polarised transport; strontium compounds; SrRuO3-BaTiO3; electrical conductance; electrically-controlled spin injection; electron doping; ferroelectric polarization switching; ferromagnetic metal-ferroelectric semiconductor heterojunction; first-principles calculations; injected carrier spin-polarization; local spin-density approximation; plane-wave pseudopotential code; Approximation methods; Doping; Frequency modulation; Iron; Ohmic contacts; Spin polarized transport;
Conference_Titel :
Magnetics Conference (INTERMAG), 2015 IEEE
Conference_Location :
Beijing
Print_ISBN :
978-1-4799-7321-7
DOI :
10.1109/INTMAG.2015.7156869
