Direct observation of the spin texture in SmB 6 as evidence of the topological Kondo insulator

N. Xu; P. K. Biswas; J. H. Dil; R. S. Dhaka; G. Landolt; S. Muff; C. E. Matt; X. Shi; N. C. Plumb; M. Radović; E. Pomjakushina; K. Conder; A. Amato; S. V. Borisenko; R. Yu; H. M. Weng; Z. Fang; X. Dai; J. Mesot; H. Ding; M. Shi

doi:10.1038/ncomms5566

Direct observation of the spin texture in SmB 6 as evidence of the topological Kondo insulator

N. Xu^*, P. K. Biswas, J. H. Dil, R. S. Dhaka, G. Landolt, S. Muff, C. E. Matt, X. Shi, N. C. Plumb, M. Radović, E. Pomjakushina, K. Conder, A. Amato, S. V. Borisenko, R. Yu, H. M. Weng, Z. Fang, X. Dai, J. Mesot, H. DingM. Shi

^*Corresponding author for this work

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

190 Citations (Scopus)

Abstract

Topological Kondo insulators have been proposed as a new class of topological insulators in which non-trivial surface states reside in the bulk Kondo band gap at low temperature due to strong spin-orbit coupling. In contrast to other three-dimensional topological insulators, a topological Kondo insulator is truly bulk insulating. Furthermore, strong electron correlations are present in the system, which may interact with the novel topological phase. By applying spin-and angle-resolved photoemission spectroscopy, here we show that the surface states of SmB 6 are spin polarized. The spin is locked to the crystal momentum, fulfilling time reversal and crystal symmetries. Our results provide strong evidence that SmB 6 can host topological surface states in a bulk insulating gap stemming from the Kondo effect, which can serve as an ideal platform for investigating of the interplay between novel topological quantum states with emergent effects and competing orders induced by strongly correlated electrons.

Original language	English
Article number	4566
Journal	Nature Communications
Volume	5
DOIs	https://doi.org/10.1038/ncomms5566
Publication status	Published - 30 Jul 2014
Externally published	Yes

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Xu, N., Biswas, P. K., Dil, J. H., Dhaka, R. S., Landolt, G., Muff, S., Matt, C. E., Shi, X., Plumb, N. C., Radović, M., Pomjakushina, E., Conder, K., Amato, A., Borisenko, S. V., Yu, R., Weng, H. M., Fang, Z., Dai, X., Mesot, J., ... Shi, M. (2014). Direct observation of the spin texture in SmB 6 as evidence of the topological Kondo insulator. Nature Communications, 5, Article 4566. https://doi.org/10.1038/ncomms5566

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title = "Direct observation of the spin texture in SmB 6 as evidence of the topological Kondo insulator",

abstract = "Topological Kondo insulators have been proposed as a new class of topological insulators in which non-trivial surface states reside in the bulk Kondo band gap at low temperature due to strong spin-orbit coupling. In contrast to other three-dimensional topological insulators, a topological Kondo insulator is truly bulk insulating. Furthermore, strong electron correlations are present in the system, which may interact with the novel topological phase. By applying spin-and angle-resolved photoemission spectroscopy, here we show that the surface states of SmB 6 are spin polarized. The spin is locked to the crystal momentum, fulfilling time reversal and crystal symmetries. Our results provide strong evidence that SmB 6 can host topological surface states in a bulk insulating gap stemming from the Kondo effect, which can serve as an ideal platform for investigating of the interplay between novel topological quantum states with emergent effects and competing orders induced by strongly correlated electrons.",

author = "N. Xu and Biswas, {P. K.} and Dil, {J. H.} and Dhaka, {R. S.} and G. Landolt and S. Muff and Matt, {C. E.} and X. Shi and Plumb, {N. C.} and M. Radovi{\'c} and E. Pomjakushina and K. Conder and A. Amato and Borisenko, {S. V.} and R. Yu and Weng, {H. M.} and Z. Fang and X. Dai and J. Mesot and H. Ding and M. Shi",

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Xu, N, Biswas, PK, Dil, JH, Dhaka, RS, Landolt, G, Muff, S, Matt, CE, Shi, X, Plumb, NC, Radović, M, Pomjakushina, E, Conder, K, Amato, A, Borisenko, SV, Yu, R, Weng, HM, Fang, Z, Dai, X, Mesot, J, Ding, H & Shi, M 2014, 'Direct observation of the spin texture in SmB 6 as evidence of the topological Kondo insulator', Nature Communications, vol. 5, 4566. https://doi.org/10.1038/ncomms5566

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AU - Xu, N.

AU - Biswas, P. K.

AU - Dil, J. H.

AU - Dhaka, R. S.

AU - Landolt, G.

AU - Muff, S.

AU - Matt, C. E.

AU - Shi, X.

AU - Plumb, N. C.

AU - Radović, M.

AU - Pomjakushina, E.

AU - Conder, K.

AU - Amato, A.

AU - Borisenko, S. V.

AU - Yu, R.

AU - Weng, H. M.

AU - Fang, Z.

AU - Dai, X.

AU - Mesot, J.

AU - Ding, H.

AU - Shi, M.

PY - 2014/7/30

Y1 - 2014/7/30

N2 - Topological Kondo insulators have been proposed as a new class of topological insulators in which non-trivial surface states reside in the bulk Kondo band gap at low temperature due to strong spin-orbit coupling. In contrast to other three-dimensional topological insulators, a topological Kondo insulator is truly bulk insulating. Furthermore, strong electron correlations are present in the system, which may interact with the novel topological phase. By applying spin-and angle-resolved photoemission spectroscopy, here we show that the surface states of SmB 6 are spin polarized. The spin is locked to the crystal momentum, fulfilling time reversal and crystal symmetries. Our results provide strong evidence that SmB 6 can host topological surface states in a bulk insulating gap stemming from the Kondo effect, which can serve as an ideal platform for investigating of the interplay between novel topological quantum states with emergent effects and competing orders induced by strongly correlated electrons.

AB - Topological Kondo insulators have been proposed as a new class of topological insulators in which non-trivial surface states reside in the bulk Kondo band gap at low temperature due to strong spin-orbit coupling. In contrast to other three-dimensional topological insulators, a topological Kondo insulator is truly bulk insulating. Furthermore, strong electron correlations are present in the system, which may interact with the novel topological phase. By applying spin-and angle-resolved photoemission spectroscopy, here we show that the surface states of SmB 6 are spin polarized. The spin is locked to the crystal momentum, fulfilling time reversal and crystal symmetries. Our results provide strong evidence that SmB 6 can host topological surface states in a bulk insulating gap stemming from the Kondo effect, which can serve as an ideal platform for investigating of the interplay between novel topological quantum states with emergent effects and competing orders induced by strongly correlated electrons.

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ER -

Direct observation of the spin texture in SmB 6 as evidence of the topological Kondo insulator

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