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Strong spin-orbit coupling in the noncentrosymmetric Kondo lattice. / Generalov, A.; Falke, J.; Nechaev, I. A.; Otrokov, M. M.; Guettler, M.; Chikina, A.; Kliemt, K.; Seiro, S.; Kummer, K.; Danzenbaecher, S.; Usachov, D.; Kim, T. K.; Dudin, P.; Chulkov, E. V.; Laubschat, C.; Geibel, C.; Krellner, C.; Vyalikh, D. V.

в: Physical Review B, Том 98, № 11, 115157, 27.09.2018.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Generalov, A, Falke, J, Nechaev, IA, Otrokov, MM, Guettler, M, Chikina, A, Kliemt, K, Seiro, S, Kummer, K, Danzenbaecher, S, Usachov, D, Kim, TK, Dudin, P, Chulkov, EV, Laubschat, C, Geibel, C, Krellner, C & Vyalikh, DV 2018, 'Strong spin-orbit coupling in the noncentrosymmetric Kondo lattice', Physical Review B, Том. 98, № 11, 115157. https://doi.org/10.1103/PhysRevB.98.115157

APA

Generalov, A., Falke, J., Nechaev, I. A., Otrokov, M. M., Guettler, M., Chikina, A., Kliemt, K., Seiro, S., Kummer, K., Danzenbaecher, S., Usachov, D., Kim, T. K., Dudin, P., Chulkov, E. V., Laubschat, C., Geibel, C., Krellner, C., & Vyalikh, D. V. (2018). Strong spin-orbit coupling in the noncentrosymmetric Kondo lattice. Physical Review B, 98(11), [115157]. https://doi.org/10.1103/PhysRevB.98.115157

Vancouver

Generalov A, Falke J, Nechaev IA, Otrokov MM, Guettler M, Chikina A и пр. Strong spin-orbit coupling in the noncentrosymmetric Kondo lattice. Physical Review B. 2018 Сент. 27;98(11). 115157. https://doi.org/10.1103/PhysRevB.98.115157

Author

Generalov, A. ; Falke, J. ; Nechaev, I. A. ; Otrokov, M. M. ; Guettler, M. ; Chikina, A. ; Kliemt, K. ; Seiro, S. ; Kummer, K. ; Danzenbaecher, S. ; Usachov, D. ; Kim, T. K. ; Dudin, P. ; Chulkov, E. V. ; Laubschat, C. ; Geibel, C. ; Krellner, C. ; Vyalikh, D. V. / Strong spin-orbit coupling in the noncentrosymmetric Kondo lattice. в: Physical Review B. 2018 ; Том 98, № 11.

BibTeX

@article{e3619cfac8f546b18e10481ab7ca7783,
title = "Strong spin-orbit coupling in the noncentrosymmetric Kondo lattice",
abstract = "Strong spin-orbit coupling (SOC) in combination with a lack of inversion symmetry and exchange magnetic interaction proves to be a sophisticated instrument allowing efficient control of the spin orientation, energy and trajectories of two-dimensional (2D) electrons and holes trapped at surfaces or interfaces. Exploiting Kondo-related phenomena and crystal-electric-field effects at reduced dimensionalities opens new opportunities to handle their spin-dependent properties offering novel functionalities. We consider here a 2D Kondo lattice represented by a Si-Ir-Si-Yb (SISY) surface block of the heavy-fermion material YbIr2Si2. We show that the Kondo interaction with 4f moments allows finely tuning the group velocities of the strongly spin-polarized carriers in 2D itinerant states of this noncentrosymmetric system. To unveil the peculiarities of this interaction, we used angle-resolved photoemission measurements complemented by first-principles calculations. We established that the strong SOC of the Ir atoms induces spin polarization of the 2D states in SISY block, while the 2D lattice of Yb 4f moments acts as a source for coherent f-d interplay. The strong SOC and lack of inversion symmetry turn out to lead not only to the anticipated Rashba-like splitting of the 2D states, but also to spin splitting of the 4f Kramers doublets. They couple temperature-dependently to the spin-polarized 2D states and thereby guide the properties of the latter.",
keywords = "SINGLE-CRYSTAL GROWTH, AUGMENTED-WAVE METHOD, INTERFACES, ITINERANT, EFFICIENT, GDRH2SI2, SURFACE",
author = "A. Generalov and J. Falke and Nechaev, {I. A.} and Otrokov, {M. M.} and M. Guettler and A. Chikina and K. Kliemt and S. Seiro and K. Kummer and S. Danzenbaecher and D. Usachov and Kim, {T. K.} and P. Dudin and Chulkov, {E. V.} and C. Laubschat and C. Geibel and C. Krellner and Vyalikh, {D. V.}",
year = "2018",
month = sep,
day = "27",
doi = "10.1103/PhysRevB.98.115157",
language = "Английский",
volume = "98",
journal = "Physical Review B-Condensed Matter",
issn = "1098-0121",
publisher = "American Physical Society",
number = "11",

}

RIS

TY - JOUR

T1 - Strong spin-orbit coupling in the noncentrosymmetric Kondo lattice

AU - Generalov, A.

AU - Falke, J.

AU - Nechaev, I. A.

AU - Otrokov, M. M.

AU - Guettler, M.

AU - Chikina, A.

AU - Kliemt, K.

AU - Seiro, S.

AU - Kummer, K.

AU - Danzenbaecher, S.

AU - Usachov, D.

AU - Kim, T. K.

AU - Dudin, P.

AU - Chulkov, E. V.

AU - Laubschat, C.

AU - Geibel, C.

AU - Krellner, C.

AU - Vyalikh, D. V.

PY - 2018/9/27

Y1 - 2018/9/27

N2 - Strong spin-orbit coupling (SOC) in combination with a lack of inversion symmetry and exchange magnetic interaction proves to be a sophisticated instrument allowing efficient control of the spin orientation, energy and trajectories of two-dimensional (2D) electrons and holes trapped at surfaces or interfaces. Exploiting Kondo-related phenomena and crystal-electric-field effects at reduced dimensionalities opens new opportunities to handle their spin-dependent properties offering novel functionalities. We consider here a 2D Kondo lattice represented by a Si-Ir-Si-Yb (SISY) surface block of the heavy-fermion material YbIr2Si2. We show that the Kondo interaction with 4f moments allows finely tuning the group velocities of the strongly spin-polarized carriers in 2D itinerant states of this noncentrosymmetric system. To unveil the peculiarities of this interaction, we used angle-resolved photoemission measurements complemented by first-principles calculations. We established that the strong SOC of the Ir atoms induces spin polarization of the 2D states in SISY block, while the 2D lattice of Yb 4f moments acts as a source for coherent f-d interplay. The strong SOC and lack of inversion symmetry turn out to lead not only to the anticipated Rashba-like splitting of the 2D states, but also to spin splitting of the 4f Kramers doublets. They couple temperature-dependently to the spin-polarized 2D states and thereby guide the properties of the latter.

AB - Strong spin-orbit coupling (SOC) in combination with a lack of inversion symmetry and exchange magnetic interaction proves to be a sophisticated instrument allowing efficient control of the spin orientation, energy and trajectories of two-dimensional (2D) electrons and holes trapped at surfaces or interfaces. Exploiting Kondo-related phenomena and crystal-electric-field effects at reduced dimensionalities opens new opportunities to handle their spin-dependent properties offering novel functionalities. We consider here a 2D Kondo lattice represented by a Si-Ir-Si-Yb (SISY) surface block of the heavy-fermion material YbIr2Si2. We show that the Kondo interaction with 4f moments allows finely tuning the group velocities of the strongly spin-polarized carriers in 2D itinerant states of this noncentrosymmetric system. To unveil the peculiarities of this interaction, we used angle-resolved photoemission measurements complemented by first-principles calculations. We established that the strong SOC of the Ir atoms induces spin polarization of the 2D states in SISY block, while the 2D lattice of Yb 4f moments acts as a source for coherent f-d interplay. The strong SOC and lack of inversion symmetry turn out to lead not only to the anticipated Rashba-like splitting of the 2D states, but also to spin splitting of the 4f Kramers doublets. They couple temperature-dependently to the spin-polarized 2D states and thereby guide the properties of the latter.

KW - SINGLE-CRYSTAL GROWTH

KW - AUGMENTED-WAVE METHOD

KW - INTERFACES

KW - ITINERANT

KW - EFFICIENT

KW - GDRH2SI2

KW - SURFACE

UR - http://www.mendeley.com/research/strong-spinorbit-coupling-noncentrosymmetric-kondo-lattice

U2 - 10.1103/PhysRevB.98.115157

DO - 10.1103/PhysRevB.98.115157

M3 - статья

VL - 98

JO - Physical Review B-Condensed Matter

JF - Physical Review B-Condensed Matter

SN - 1098-0121

IS - 11

M1 - 115157

ER -

ID: 35361913