Influence of an Anomalous Temperature Dependence of the Phase Coherence Length on the Conductivity of Magnetic Topological Insulators

V. Tkac; K. Vyborny; V. Komanický; J. Warmuth; M. Michiardi; A. S. Ngankeu; M. Vondráček; R. Tarasenko; M. Vališka; Vitalii Stetsovych; K. Carva; I. Garate; M. Bianchi; J. Wiebe; Vaclav Holy; Ph. Hoffmann; Gunther Springholz; V. Sechovský; J. Honolka

doi:10.1103/PhysRevLett.123.036406

Influence of an Anomalous Temperature Dependence of the Phase Coherence Length on the Conductivity of Magnetic Topological Insulators

V. Tkac, K. Vyborny, V. Komanický, J. Warmuth, M. Michiardi, A. S. Ngankeu, M. Vondráček, R. Tarasenko, M. Vališka, Vitalii Stetsovych, K. Carva, I. Garate, M. Bianchi, J. Wiebe, Vaclav Holy, Ph. Hoffmann, Gunther Springholz, V. Sechovský, J. Honolka

Department of Semiconductor Physics

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

Abstract

Magnetotransport constitutes a useful probe to understand the interplay between electronic band topology and magnetism in spintronic devices. A recent theory of Lu and Shen [Phys. Rev. Lett. 112, 146601 (2014)] on magnetically doped topological insulators predicts that quantum corrections Δκ to the temperature dependence of conductivity can change sign across the Curie transition. This phenomenon has been attributed to a suppression of the Berry phase of the topological surface states at the Fermi level, caused by a magnetic energy gap. Here, we demonstrate experimentally that Δκ can reverse its sign even when the Berry phase at the Fermi level remains unchanged. The contradictory behavior to theory predictions is resolved by extending the model by Lu and Shen to a nonmonotonic temperature scaling of the inelastic scattering length showing a turning point at the Curie transition.

Original language	English
Article number	036406
Pages (from-to)	036406
Number of pages	6
Journal	Physical Review Letters
Volume	123
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevLett.123.036406
Publication status	Published - Jul 2019

Fields of science

103 Physics, Astronomy

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10.1103/PhysRevLett.123.036406

Cite this

Tkac, V., Vyborny, K., Komanický, V., Warmuth, J., Michiardi, M., Ngankeu, A. S., Vondráček, M., Tarasenko, R., Vališka, M., Stetsovych, V., Carva, K., Garate, I., Bianchi, M., Wiebe, J., Holy, V., Hoffmann, P., Springholz, G., Sechovský, V., & Honolka, J. (2019). Influence of an Anomalous Temperature Dependence of the Phase Coherence Length on the Conductivity of Magnetic Topological Insulators. Physical Review Letters, 123(3), 036406. Article 036406. https://doi.org/10.1103/PhysRevLett.123.036406

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title = "Influence of an Anomalous Temperature Dependence of the Phase Coherence Length on the Conductivity of Magnetic Topological Insulators",

abstract = "Magnetotransport constitutes a useful probe to understand the interplay between electronic band topology and magnetism in spintronic devices. A recent theory of Lu and Shen [Phys. Rev. Lett. 112, 146601 (2014)] on magnetically doped topological insulators predicts that quantum corrections Δκ to the temperature dependence of conductivity can change sign across the Curie transition. This phenomenon has been attributed to a suppression of the Berry phase of the topological surface states at the Fermi level, caused by a magnetic energy gap. Here, we demonstrate experimentally that Δκ can reverse its sign even when the Berry phase at the Fermi level remains unchanged. The contradictory behavior to theory predictions is resolved by extending the model by Lu and Shen to a nonmonotonic temperature scaling of the inelastic scattering length showing a turning point at the Curie transition.",

author = "V. Tkac and K. Vyborny and V. Komanick{\'y} and J. Warmuth and M. Michiardi and Ngankeu, \{A. S.\} and M. Vondr{\'a}{\v c}ek and R. Tarasenko and M. Vali{\v s}ka and Vitalii Stetsovych and K. Carva and I. Garate and M. Bianchi and J. Wiebe and Vaclav Holy and Ph. Hoffmann and Gunther Springholz and V. Sechovsk{\'y} and J. Honolka",

year = "2019",

month = jul,

doi = "10.1103/PhysRevLett.123.036406",

language = "English",

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journal = "Physical Review Letters",

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Tkac, V, Vyborny, K, Komanický, V, Warmuth, J, Michiardi, M, Ngankeu, AS, Vondráček, M, Tarasenko, R, Vališka, M, Stetsovych, V, Carva, K, Garate, I, Bianchi, M, Wiebe, J, Holy, V, Hoffmann, P, Springholz, G, Sechovský, V & Honolka, J 2019, 'Influence of an Anomalous Temperature Dependence of the Phase Coherence Length on the Conductivity of Magnetic Topological Insulators', Physical Review Letters, vol. 123, no. 3, 036406, pp. 036406. https://doi.org/10.1103/PhysRevLett.123.036406

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T1 - Influence of an Anomalous Temperature Dependence of the Phase Coherence Length on the Conductivity of Magnetic Topological Insulators

AU - Tkac, V.

AU - Vyborny, K.

AU - Komanický, V.

AU - Warmuth, J.

AU - Michiardi, M.

AU - Ngankeu, A. S.

AU - Vondráček, M.

AU - Tarasenko, R.

AU - Vališka, M.

AU - Stetsovych, Vitalii

AU - Carva, K.

AU - Garate, I.

AU - Bianchi, M.

AU - Wiebe, J.

AU - Holy, Vaclav

AU - Hoffmann, Ph.

AU - Springholz, Gunther

AU - Sechovský, V.

AU - Honolka, J.

PY - 2019/7

Y1 - 2019/7

N2 - Magnetotransport constitutes a useful probe to understand the interplay between electronic band topology and magnetism in spintronic devices. A recent theory of Lu and Shen [Phys. Rev. Lett. 112, 146601 (2014)] on magnetically doped topological insulators predicts that quantum corrections Δκ to the temperature dependence of conductivity can change sign across the Curie transition. This phenomenon has been attributed to a suppression of the Berry phase of the topological surface states at the Fermi level, caused by a magnetic energy gap. Here, we demonstrate experimentally that Δκ can reverse its sign even when the Berry phase at the Fermi level remains unchanged. The contradictory behavior to theory predictions is resolved by extending the model by Lu and Shen to a nonmonotonic temperature scaling of the inelastic scattering length showing a turning point at the Curie transition.

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