%0 Journal Article
%A Rouco Gómez, Víctor
%A Gallego Toledo, Fernando
%A Hernández Martín, D.
%A Sánchez Manzano, David
%A Tornos Castillo, Javier
%A Beltrán Finez, Juan Ignacio
%A Cabero Piris, Mariona
%A Cuéllar Jiménez, Fabian Andrés
%A Arias Serna, Diego
%A Sánchez Santolino, Gabriel
%A Mompean, F. J.
%A García Hernández, M.
%A Rivera Calzada, Alberto Carlos
%A Varela del Arco, María
%A Muñoz, M. C.
%A León Yebra, Carlos
%A Sefrioui, Zouhair
%A Santamaría Sánchez-Barriga, Jacobo
%T Ferroionic inversion of spin polarization in a spin-memristor
%D 2021
%@ 2166-532X
%U https://hdl.handle.net/20.500.14352/7978
%X Magnetoelectric coupling in artificial multiferroic interfaces can be drastically affected by the switching of oxygen vacancies and by the inversion of the ferroelectric polarization. Disentangling both effects is of major importance toward exploiting these effects in practical spintronic or spinorbitronic devices. We report on the independent control of ferroelectric and oxygen vacancy switching in multiferroic tunnel junctions with a La_(0.7)Sr_(0.3)MnO_3 bottom electrode, a BaTiO_3 ferroelectric barrier, and a Ni top electrode. We show that the concurrence of interface oxidation and ferroelectric switching allows for the controlled inversion of the interface spin polarization. Moreover, we show the possibility of a spin-memristor where the controlled oxidation of the interface allows for a continuum of memresistance states in the tunneling magnetoresistance. These results signal interesting new avenues toward neuromorphic devices where, as in practical neurons, the electronic response is controlled by electrochemical degrees of freedom.
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