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Nanopillar spin filter tunnel junctions with manganite barriers.
Authors
Bell C.
Bhagwati Prasad
+48 more
Chapline M. G.
Dalai M. K.
de Teresa J. M.
DiVincenzo D. P.
Frank Schoofs
Goldhaber-Gordon D.
Haghiri-Gosnet A. -M.
Haiyan Wang
Harada T.
Harada T.
Hassen A.
Jie Jian
Kasai M.
Kurbakov A. I.
LeClair P.
LeClair P.
Lee K. I.
Lüders U.
Mark G. Blamire
Martin C.
Mary E. Vickers
Matzen S.
Matzen S.
Mehmet Egilmez
Mezei F.
Moodera J. S.
Moodera J. S.
Moodera J. S.
Moodera J. S.
Moodera J. S.
Moodera J. S.
Pal A.
Prasad R.
Prinz G. A.
Rowell J. M.
Salamon M. B.
Santos T. S.
Santos T. S.
Senapati K.
Shen L. Y. L.
Simmons J. G.
Srivastava M. K.
Thomas Fix
Wenrui Zhang
Wolf E. L.
Worledge D. C.
Wu M. C.
Zhang J.
Publication date
17 April 2014
Publisher
Nano Lett
Doi
Cite
Abstract
The potential of a manganite ferromagnetic insulator in the field of spin-filtering has been demonstrated. For this, an ultrathin film of Sm0.75Sr0.25MnO3 is integrated as a barrier in an epitaxial oxide nanopillar tunnel junction and a high spin polarization of up to 75% at 5 K has been achieved. A large zero-bias anomaly observed in the dynamic conductance at low temperatures is explained in terms of the Kondo scattering model. In addition, a decrease in spin polarization at low bias and hysteretic magneto-resistance at low temperatures are reported. The results open up new possibilities for spin-electronics and suggest exploration of other manganites-based materials for the room temperature spin-filter applications.This work was partially supported by the ERC Advanced Integrators Grant “SUPERSPIN”. B.P. was funded by the Nehru Trust for Cambridge University and St John’s College. The TEM work at Texas A&M was supported by the U.S. National Science Foundation (NSF-DMR 0846504). The authors wish to thank Prof. J. Kumar (IIT Kanpur, India) for help in improving the manuscript.This document is the Accepted Manuscript version of a Published Work that appeared in final form in Nano Letters, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see http://pubs.acs.org/doi/abs/10.1021/nl500798
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Last time updated on 28/07/2016
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info:doi/10.1021%2Fnl500798b
Last time updated on 03/11/2020