Optical investigation of electrical spin injection into an inverted two-dimensional electron gas structure

M. Buchner; T. Kuczmik; M. Oltscher; M. Ciorga; T. Korn; J. Loher; D. Schuh; C. Schüller; D. Bougeard; D. Weiss; C. H. Back

doi:10.1103/PhysRevB.95.035304

Optical investigation of electrical spin injection into an inverted two-dimensional electron gas structure

M. Buchner, T. Kuczmik, M. Oltscher, M. Ciorga, T. Korn, J. Loher, D. Schuh, C. Schüller, D. Bougeard, D. Weiss, C. H. Back

University of Regensburg

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

4 Scopus citations

Abstract

We report on electrical spin injection from (Ga,Mn)As into a high-mobility two-dimensional electron gas confined at an (Al,Ga)As/GaAs interface. Besides standard nonlocal electrical detection, we use a magneto-optical approach which provides cross-sectional images of the spin accumulation at the cleaved edge of the sample, yielding spin decay lengths on the order of 2μm. In some cases we find a nonmonotonic bias voltage dependence of the spin signal, which may be linked to ballistic tunneling effects during spin injection. We observe a clear Hanle depolarization using a technique which is free of dynamic nuclear polarization effects. Fitting the data with the standard drift-diffusion model of spin injection suggests averaged in-plane spin lifetimes on the order of 1 ns.

Original language	English
Article number	035304
Journal	Physical Review B
Volume	95
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevB.95.035304
State	Published - 13 Jan 2017
Externally published	Yes

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title = "Optical investigation of electrical spin injection into an inverted two-dimensional electron gas structure",

abstract = "We report on electrical spin injection from (Ga,Mn)As into a high-mobility two-dimensional electron gas confined at an (Al,Ga)As/GaAs interface. Besides standard nonlocal electrical detection, we use a magneto-optical approach which provides cross-sectional images of the spin accumulation at the cleaved edge of the sample, yielding spin decay lengths on the order of 2μm. In some cases we find a nonmonotonic bias voltage dependence of the spin signal, which may be linked to ballistic tunneling effects during spin injection. We observe a clear Hanle depolarization using a technique which is free of dynamic nuclear polarization effects. Fitting the data with the standard drift-diffusion model of spin injection suggests averaged in-plane spin lifetimes on the order of 1 ns.",

author = "M. Buchner and T. Kuczmik and M. Oltscher and M. Ciorga and T. Korn and J. Loher and D. Schuh and C. Sch{\"u}ller and D. Bougeard and D. Weiss and Back, {C. H.}",

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T1 - Optical investigation of electrical spin injection into an inverted two-dimensional electron gas structure

AU - Buchner, M.

AU - Kuczmik, T.

AU - Oltscher, M.

AU - Ciorga, M.

AU - Korn, T.

AU - Loher, J.

AU - Schuh, D.

AU - Schüller, C.

AU - Bougeard, D.

AU - Weiss, D.

AU - Back, C. H.

PY - 2017/1/13

Y1 - 2017/1/13

N2 - We report on electrical spin injection from (Ga,Mn)As into a high-mobility two-dimensional electron gas confined at an (Al,Ga)As/GaAs interface. Besides standard nonlocal electrical detection, we use a magneto-optical approach which provides cross-sectional images of the spin accumulation at the cleaved edge of the sample, yielding spin decay lengths on the order of 2μm. In some cases we find a nonmonotonic bias voltage dependence of the spin signal, which may be linked to ballistic tunneling effects during spin injection. We observe a clear Hanle depolarization using a technique which is free of dynamic nuclear polarization effects. Fitting the data with the standard drift-diffusion model of spin injection suggests averaged in-plane spin lifetimes on the order of 1 ns.

AB - We report on electrical spin injection from (Ga,Mn)As into a high-mobility two-dimensional electron gas confined at an (Al,Ga)As/GaAs interface. Besides standard nonlocal electrical detection, we use a magneto-optical approach which provides cross-sectional images of the spin accumulation at the cleaved edge of the sample, yielding spin decay lengths on the order of 2μm. In some cases we find a nonmonotonic bias voltage dependence of the spin signal, which may be linked to ballistic tunneling effects during spin injection. We observe a clear Hanle depolarization using a technique which is free of dynamic nuclear polarization effects. Fitting the data with the standard drift-diffusion model of spin injection suggests averaged in-plane spin lifetimes on the order of 1 ns.

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ER -

Optical investigation of electrical spin injection into an inverted two-dimensional electron gas structure

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