Co-sputtered PtMnSb thin films and PtMnSb/Pt bilayers for spin-orbit torque investigations

Krieft J, Mendil J, Aguirre MH, Avci CO, Klewe C, Rott K, Schmalhorst J-M, Reiss G, Gambardella P, Kuschel T (2017)
physica status solidi (RRL) - Rapid Research Letters 11(4): 1600439.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Krieft, JanUniBi; Mendil, Johannes; Aguirre, Myriam H.; Avci, Can O.; Klewe, Christoph; Rott, KarstenUniBi; Schmalhorst, Jan-MichaelUniBi ; Reiss, GünterUniBi ; Gambardella, Pietro; Kuschel, TimoUniBi
Abstract / Bemerkung
The manipulation of the magnetization by spin–orbit torques (SOTs) has recently been extensively studied due to its potential for efficiently writing information in magnetic memories. Particular attention is paid to non-centrosymmetric systems with space inversion asymmetry, where SOTs emerge even in single-layer materials. The half-metallic half-Heusler PtMnSb is an interesting candidate for studies of this intrinsic SOT. Here, we report on the growth and epitaxial properties of PtMnSb thin films and PtMnSb/Pt bilayers deposited on MgO(001) substrates by dc magnetron co-sputtering at high temperature in ultra-high vacuum. The film properties were investigated by X-ray diffraction, X-ray reflectivity, atomic force microscopy, and electron microscopy. Thin PtMnSb films present a monocrystalline C1b phase with (001) orientation, coexisting at increasing thickness with a polycrystalline phase with (111) texture. Films thinner than about 5 nm grow in islands, whereas thicker films grow ultimately layer-by-layer, forming a perfect MgO/PtMnSb interface. The thin PtMnSb/Pt bilayers also show island growth and a defective transition zone, while thicker films grow layer-by-layer and Pt grows epitaxially on the half-Heusler compound without significant interdiffusion.
Erscheinungsjahr
2017
Zeitschriftentitel
physica status solidi (RRL) - Rapid Research Letters
Band
11
Ausgabe
4
Art.-Nr.
1600439
ISSN
1862-6254
Page URI
https://pub.uni-bielefeld.de/record/2908651

Zitieren

Krieft J, Mendil J, Aguirre MH, et al. Co-sputtered PtMnSb thin films and PtMnSb/Pt bilayers for spin-orbit torque investigations. physica status solidi (RRL) - Rapid Research Letters. 2017;11(4): 1600439.
Krieft, J., Mendil, J., Aguirre, M. H., Avci, C. O., Klewe, C., Rott, K., Schmalhorst, J. - M., et al. (2017). Co-sputtered PtMnSb thin films and PtMnSb/Pt bilayers for spin-orbit torque investigations. physica status solidi (RRL) - Rapid Research Letters, 11(4), 1600439. doi:10.1002/pssr.201600439
Krieft, Jan, Mendil, Johannes, Aguirre, Myriam H., Avci, Can O., Klewe, Christoph, Rott, Karsten, Schmalhorst, Jan-Michael, Reiss, Günter, Gambardella, Pietro, and Kuschel, Timo. 2017. “Co-sputtered PtMnSb thin films and PtMnSb/Pt bilayers for spin-orbit torque investigations”. physica status solidi (RRL) - Rapid Research Letters 11 (4): 1600439.
Krieft, J., Mendil, J., Aguirre, M. H., Avci, C. O., Klewe, C., Rott, K., Schmalhorst, J. - M., Reiss, G., Gambardella, P., and Kuschel, T. (2017). Co-sputtered PtMnSb thin films and PtMnSb/Pt bilayers for spin-orbit torque investigations. physica status solidi (RRL) - Rapid Research Letters 11:1600439.
Krieft, J., et al., 2017. Co-sputtered PtMnSb thin films and PtMnSb/Pt bilayers for spin-orbit torque investigations. physica status solidi (RRL) - Rapid Research Letters, 11(4): 1600439.
J. Krieft, et al., “Co-sputtered PtMnSb thin films and PtMnSb/Pt bilayers for spin-orbit torque investigations”, physica status solidi (RRL) - Rapid Research Letters, vol. 11, 2017, : 1600439.
Krieft, J., Mendil, J., Aguirre, M.H., Avci, C.O., Klewe, C., Rott, K., Schmalhorst, J.-M., Reiss, G., Gambardella, P., Kuschel, T.: Co-sputtered PtMnSb thin films and PtMnSb/Pt bilayers for spin-orbit torque investigations. physica status solidi (RRL) - Rapid Research Letters. 11, : 1600439 (2017).
Krieft, Jan, Mendil, Johannes, Aguirre, Myriam H., Avci, Can O., Klewe, Christoph, Rott, Karsten, Schmalhorst, Jan-Michael, Reiss, Günter, Gambardella, Pietro, and Kuschel, Timo. “Co-sputtered PtMnSb thin films and PtMnSb/Pt bilayers for spin-orbit torque investigations”. physica status solidi (RRL) - Rapid Research Letters 11.4 (2017): 1600439.

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