Unidirectional Spin-Dependent Molecule-Ferromagnet Hybridized States Anisotropy in Cobalt Phthalocyanine Based Magnetic Tunnel Junctions

作者:Barraud Clement*; Bouzehouane Karim; Deranlot Cyrile; Fusil Stephane; Jabbar Hashim; Arabski Jacek; Rakshit Rajib; Kim Dong Jik; Kieber Christophe; Boukari Samy; Bowen Martin; Beaurepaire Eric; Seneor Pierre; Mattana Richard; Petroff Frederic
来源:Physical Review Letters, 2015, 114(20): 206603.
DOI:10.1103/PhysRevLett.114.206603

摘要

Organic or molecular spintronics isarising field of research at the frontier between condensed matter physics and chemistry. It aims to mix spin physics and the richness of chemistry towards designing new properties for spin electronics devices through engineering at the molecular scale. Beyond the expectation of a long spin lifetime, molecules can be also used to tailor the spin polarization of the injected current through the spin-dependent hybridization between molecules and ferromagnetic electrodes. In this Letter, we provide direct evidence of a hybrid interface spin polarization reversal due to the differing hybridization between phthalocyanine molecules and each cobalt electrode in Co/CoPc/Co magnetic tunnel junctions. Tunnel magnetoresistance and anisotropic tunnel magnetoresistance experiments show that interfacial hybridized electronic states have a unidirectional anisotropy that can be controlled by an electric field and that spin hybridization at the bottom and top interfaces differ, leading to an inverse tunnel magnetoresistance.

  • 出版日期2015-5-21