Spin transport in p-type germanium

F. Rortais; S. Oyarzún; F. Bottegoni; J. C. Rojas-Sánchez; P. Laczkowski; A. Ferrari; C. Vergnaud; C. Ducruet; C. Beigné; N. Reyren; A. Marty; J. P. Attané; L. Vila; S. Gambarelli; J. Widiez; F. Ciccacci; H. Jaffrès; J. M. George; M. Jamet

doi:10.1088/0953-8984/28/16/165801

Spin transport in p-type germanium

F. Rortais
, S. Oyarzún
, F. Bottegoni
, J. C. Rojas-Sánchez
, P. Laczkowski
, A. Ferrari
, C. Vergnaud
, C. Ducruet
, C. Beigné
, N. Reyren
, A. Marty
, J. P. Attané
, L. Vila
, S. Gambarelli
, J. Widiez
, F. Ciccacci
, H. Jaffrès
, J. M. George
, M. Jamet

LTHE (UMR 5564 CNRS/IRD/Université de Grenoble)
Univ. Joseph Fourier-Grenoble 1
Centre national de la recherche scientifique
Politecnico di Milano
Unité Mixte de Physique CNRS/Thales
Institut NÉEL
CROCUS-Technology

Research output: Contribution to journal › Article › peer-review

Abstract

We report on the spin transport properties in p-doped germanium (Ge-p) using low temperature magnetoresistance measurements, electrical spin injection from a ferromagnetic metal and the spin pumping-inverse spin Hall effect method. Electrical spin injection is carried out using three-terminal measurements and the Hanle effect. In the 2-20 K temperature range, weak antilocalization and the Hanle effect provide the same spin lifetime in the germanium valence band (≈1 ps) in agreement with predicted values and previous optical measurements. These results, combined with dynamical spin injection by spin pumping and the inverse spin Hall effect, demonstrate successful spin accumulation in Ge. We also estimate the spin Hall angle θ_SHE in Ge-p (6-7 × 10^-4) at room temperature, pointing out the essential role of ionized impurities in spin dependent scattering.

Original language	English
Article number	165801
Journal	Journal of Physics: Condensed Matter
Volume	28
Issue number	16
DOIs	https://doi.org/10.1088/0953-8984/28/16/165801
Publication status	Published - 18 Mar 2016
Externally published	Yes

Keywords

germanium
spin Hall effect
spin injection
spin pumping
spintronics

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10.1088/0953-8984/28/16/165801

Cite this

Rortais, F., Oyarzún, S., Bottegoni, F., Rojas-Sánchez, J. C., Laczkowski, P., Ferrari, A., Vergnaud, C., Ducruet, C., Beigné, C., Reyren, N., Marty, A., Attané, J. P., Vila, L., Gambarelli, S., Widiez, J., Ciccacci, F., Jaffrès, H., George, J. M., & Jamet, M. (2016). Spin transport in p-type germanium. Journal of Physics: Condensed Matter, 28(16), Article 165801. https://doi.org/10.1088/0953-8984/28/16/165801

@article{1bdc20ba738542a59ccf0abab724bdda,

title = "Spin transport in p-type germanium",

abstract = "We report on the spin transport properties in p-doped germanium (Ge-p) using low temperature magnetoresistance measurements, electrical spin injection from a ferromagnetic metal and the spin pumping-inverse spin Hall effect method. Electrical spin injection is carried out using three-terminal measurements and the Hanle effect. In the 2-20 K temperature range, weak antilocalization and the Hanle effect provide the same spin lifetime in the germanium valence band (≈1 ps) in agreement with predicted values and previous optical measurements. These results, combined with dynamical spin injection by spin pumping and the inverse spin Hall effect, demonstrate successful spin accumulation in Ge. We also estimate the spin Hall angle θSHE in Ge-p (6-7 × 10-4) at room temperature, pointing out the essential role of ionized impurities in spin dependent scattering.",

keywords = "germanium, spin Hall effect, spin injection, spin pumping, spintronics",

author = "F. Rortais and S. Oyarz{\'u}n and F. Bottegoni and Rojas-S{\'a}nchez, \{J. C.\} and P. Laczkowski and A. Ferrari and C. Vergnaud and C. Ducruet and C. Beign{\'e} and N. Reyren and A. Marty and Attan{\'e}, \{J. P.\} and L. Vila and S. Gambarelli and J. Widiez and F. Ciccacci and H. Jaffr{\`e}s and George, \{J. M.\} and M. Jamet",

note = "Publisher Copyright: {\textcopyright} 2016 IOP Publishing Ltd.",

year = "2016",

month = mar,

day = "18",

doi = "10.1088/0953-8984/28/16/165801",

language = "English",

volume = "28",

journal = "Journal of Physics: Condensed Matter",

issn = "0953-8984",

number = "16",

}

Rortais, F, Oyarzún, S, Bottegoni, F, Rojas-Sánchez, JC, Laczkowski, P, Ferrari, A, Vergnaud, C, Ducruet, C, Beigné, C, Reyren, N, Marty, A, Attané, JP, Vila, L, Gambarelli, S, Widiez, J, Ciccacci, F, Jaffrès, H, George, JM & Jamet, M 2016, 'Spin transport in p-type germanium', Journal of Physics: Condensed Matter, vol. 28, no. 16, 165801. https://doi.org/10.1088/0953-8984/28/16/165801

TY - JOUR

T1 - Spin transport in p-type germanium

AU - Rortais, F.

AU - Oyarzún, S.

AU - Bottegoni, F.

AU - Rojas-Sánchez, J. C.

AU - Laczkowski, P.

AU - Ferrari, A.

AU - Vergnaud, C.

AU - Ducruet, C.

AU - Beigné, C.

AU - Reyren, N.

AU - Marty, A.

AU - Attané, J. P.

AU - Vila, L.

AU - Gambarelli, S.

AU - Widiez, J.

AU - Ciccacci, F.

AU - Jaffrès, H.

AU - George, J. M.

AU - Jamet, M.

PY - 2016/3/18

Y1 - 2016/3/18

N2 - We report on the spin transport properties in p-doped germanium (Ge-p) using low temperature magnetoresistance measurements, electrical spin injection from a ferromagnetic metal and the spin pumping-inverse spin Hall effect method. Electrical spin injection is carried out using three-terminal measurements and the Hanle effect. In the 2-20 K temperature range, weak antilocalization and the Hanle effect provide the same spin lifetime in the germanium valence band (≈1 ps) in agreement with predicted values and previous optical measurements. These results, combined with dynamical spin injection by spin pumping and the inverse spin Hall effect, demonstrate successful spin accumulation in Ge. We also estimate the spin Hall angle θSHE in Ge-p (6-7 × 10-4) at room temperature, pointing out the essential role of ionized impurities in spin dependent scattering.

AB - We report on the spin transport properties in p-doped germanium (Ge-p) using low temperature magnetoresistance measurements, electrical spin injection from a ferromagnetic metal and the spin pumping-inverse spin Hall effect method. Electrical spin injection is carried out using three-terminal measurements and the Hanle effect. In the 2-20 K temperature range, weak antilocalization and the Hanle effect provide the same spin lifetime in the germanium valence band (≈1 ps) in agreement with predicted values and previous optical measurements. These results, combined with dynamical spin injection by spin pumping and the inverse spin Hall effect, demonstrate successful spin accumulation in Ge. We also estimate the spin Hall angle θSHE in Ge-p (6-7 × 10-4) at room temperature, pointing out the essential role of ionized impurities in spin dependent scattering.

KW - germanium

KW - spin Hall effect

KW - spin injection

KW - spin pumping

KW - spintronics

U2 - 10.1088/0953-8984/28/16/165801

DO - 10.1088/0953-8984/28/16/165801

M3 - Article

AN - SCOPUS:84963812451

SN - 0953-8984

VL - 28

JO - Journal of Physics: Condensed Matter

JF - Journal of Physics: Condensed Matter

IS - 16

M1 - 165801

ER -

Spin transport in p-type germanium

Abstract

Keywords

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