Evidence for spin-to-charge conversion by Rashba coupling in metallic states at the Fe/Ge(111) interface

S. Oyarzún; A. K. Nandy; F. Rortais; J. C. Rojas-Sánchez; M. T. Dau; P. Noël; P. Laczkowski; S. Pouget; H. Okuno; L. Vila; C. Vergnaud; C. Beigné; A. Marty; J. P. Attané; S. Gambarelli; J. M. George; H. Jaffrès; S. Blügel; M. Jamet

doi:10.1038/ncomms13857

Evidence for spin-to-charge conversion by Rashba coupling in metallic states at the Fe/Ge(111) interface

S. Oyarzún
, A. K. Nandy
, F. Rortais
, J. C. Rojas-Sánchez
, M. T. Dau
, P. Noël
, P. Laczkowski
, S. Pouget
, H. Okuno
, L. Vila
, C. Vergnaud
, C. Beigné
, A. Marty
, J. P. Attané
, S. Gambarelli
, J. M. George
, H. Jaffrès
, S. Blügel
, M. Jamet

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

The spin-orbit coupling relating the electron spin and momentum allows for spin generation, detection and manipulation. It thus fulfils the three basic functions of the spin field-effect transistor. However, the spin Hall effect in bulk germanium is too weak to produce spin currents, whereas large Rashba effect at Ge(111) surfaces covered with heavy metals could generate spin-polarized currents. The Rashba spin splitting can actually be as large as hundreds of meV. Here we show a giant spin-to-charge conversion in metallic states at the Fe/Ge(111) interface due to the Rashba coupling. We generate very large charge currents by direct spin pumping into the interface states from 20 K to room temperature. The presence of these metallic states at the Fe/Ge(111) interface is demonstrated by first-principles electronic structure calculations. By this, we demonstrate how to take advantage of the spin-orbit coupling for the development of the spin field-effect transistor.

langue originale	Anglais
Numéro d'article	13857
journal	Nature Communications
Volume	7
Les DOIs	https://doi.org/10.1038/ncomms13857
état	Publié - 15 déc. 2016
Modification externe	Oui

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10.1038/ncomms13857

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Oyarzún, S., Nandy, A. K., Rortais, F., Rojas-Sánchez, J. C., Dau, M. T., Noël, P., Laczkowski, P., Pouget, S., Okuno, H., Vila, L., Vergnaud, C., Beigné, C., Marty, A., Attané, J. P., Gambarelli, S., George, J. M., Jaffrès, H., Blügel, S., & Jamet, M. (2016). Evidence for spin-to-charge conversion by Rashba coupling in metallic states at the Fe/Ge(111) interface. Nature Communications, 7, Article 13857. https://doi.org/10.1038/ncomms13857

@article{2af747b11e6f46029e232e6cefd49b7f,

title = "Evidence for spin-to-charge conversion by Rashba coupling in metallic states at the Fe/Ge(111) interface",

abstract = "The spin-orbit coupling relating the electron spin and momentum allows for spin generation, detection and manipulation. It thus fulfils the three basic functions of the spin field-effect transistor. However, the spin Hall effect in bulk germanium is too weak to produce spin currents, whereas large Rashba effect at Ge(111) surfaces covered with heavy metals could generate spin-polarized currents. The Rashba spin splitting can actually be as large as hundreds of meV. Here we show a giant spin-to-charge conversion in metallic states at the Fe/Ge(111) interface due to the Rashba coupling. We generate very large charge currents by direct spin pumping into the interface states from 20 K to room temperature. The presence of these metallic states at the Fe/Ge(111) interface is demonstrated by first-principles electronic structure calculations. By this, we demonstrate how to take advantage of the spin-orbit coupling for the development of the spin field-effect transistor.",

author = "S. Oyarz{\'u}n and Nandy, \{A. K.\} and F. Rortais and Rojas-S{\'a}nchez, \{J. C.\} and Dau, \{M. T.\} and P. No{\"e}l and P. Laczkowski and S. Pouget and H. Okuno and L. Vila and C. Vergnaud and C. Beign{\'e} and A. Marty and Attan{\'e}, \{J. P.\} and S. Gambarelli and George, \{J. M.\} and H. Jaffr{\`e}s and S. Bl{\"u}gel and M. Jamet",

note = "Publisher Copyright: {\textcopyright} 2016 The Author(s).",

year = "2016",

month = dec,

day = "15",

doi = "10.1038/ncomms13857",

language = "English",

volume = "7",

journal = "Nature Communications",

issn = "2041-1723",

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Oyarzún, S, Nandy, AK, Rortais, F, Rojas-Sánchez, JC, Dau, MT, Noël, P, Laczkowski, P, Pouget, S, Okuno, H, Vila, L, Vergnaud, C, Beigné, C, Marty, A, Attané, JP, Gambarelli, S, George, JM, Jaffrès, H, Blügel, S & Jamet, M 2016, 'Evidence for spin-to-charge conversion by Rashba coupling in metallic states at the Fe/Ge(111) interface', Nature Communications, VOL. 7, 13857. https://doi.org/10.1038/ncomms13857

TY - JOUR

T1 - Evidence for spin-to-charge conversion by Rashba coupling in metallic states at the Fe/Ge(111) interface

AU - Oyarzún, S.

AU - Nandy, A. K.

AU - Rortais, F.

AU - Rojas-Sánchez, J. C.

AU - Dau, M. T.

AU - Noël, P.

AU - Laczkowski, P.

AU - Pouget, S.

AU - Okuno, H.

AU - Vila, L.

AU - Vergnaud, C.

AU - Beigné, C.

AU - Marty, A.

AU - Attané, J. P.

AU - Gambarelli, S.

AU - George, J. M.

AU - Jaffrès, H.

AU - Blügel, S.

AU - Jamet, M.

PY - 2016/12/15

Y1 - 2016/12/15

N2 - The spin-orbit coupling relating the electron spin and momentum allows for spin generation, detection and manipulation. It thus fulfils the three basic functions of the spin field-effect transistor. However, the spin Hall effect in bulk germanium is too weak to produce spin currents, whereas large Rashba effect at Ge(111) surfaces covered with heavy metals could generate spin-polarized currents. The Rashba spin splitting can actually be as large as hundreds of meV. Here we show a giant spin-to-charge conversion in metallic states at the Fe/Ge(111) interface due to the Rashba coupling. We generate very large charge currents by direct spin pumping into the interface states from 20 K to room temperature. The presence of these metallic states at the Fe/Ge(111) interface is demonstrated by first-principles electronic structure calculations. By this, we demonstrate how to take advantage of the spin-orbit coupling for the development of the spin field-effect transistor.

AB - The spin-orbit coupling relating the electron spin and momentum allows for spin generation, detection and manipulation. It thus fulfils the three basic functions of the spin field-effect transistor. However, the spin Hall effect in bulk germanium is too weak to produce spin currents, whereas large Rashba effect at Ge(111) surfaces covered with heavy metals could generate spin-polarized currents. The Rashba spin splitting can actually be as large as hundreds of meV. Here we show a giant spin-to-charge conversion in metallic states at the Fe/Ge(111) interface due to the Rashba coupling. We generate very large charge currents by direct spin pumping into the interface states from 20 K to room temperature. The presence of these metallic states at the Fe/Ge(111) interface is demonstrated by first-principles electronic structure calculations. By this, we demonstrate how to take advantage of the spin-orbit coupling for the development of the spin field-effect transistor.

UR - https://www.scopus.com/pages/publications/85006237872

U2 - 10.1038/ncomms13857

DO - 10.1038/ncomms13857

M3 - Article

AN - SCOPUS:85006237872

SN - 2041-1723

VL - 7

JO - Nature Communications

JF - Nature Communications

M1 - 13857

ER -

Evidence for spin-to-charge conversion by Rashba coupling in metallic states at the Fe/Ge(111) interface

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