Valley-polarized interlayer conduction of anisotropic Dirac fermions in SrMnBi2

Y. J. Jo; Joonbum Park; G. Lee; Man Jin Eom; E. S. Choi; Ji Hoon Shim; W. Kang; Jun Sung Kim

doi:10.1103/PhysRevLett.113.156602

Valley-polarized interlayer conduction of anisotropic Dirac fermions in SrMnBi2

Y. J. Jo
, Joonbum Park
, G. Lee
, Man Jin Eom
, E. S. Choi
, Ji Hoon Shim
, W. Kang
, Jun Sung Kim

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

51 Scopus citations

Abstract

We report the valley-selective interlayer conduction of SrMnBi2 under in-plane magnetic fields. The c-axis resistivity of SrMnBi2 shows clear angular magnetoresistance oscillations indicating coherent interlayer conduction. Strong fourfold variation of the coherent peak in the c-axis resistivity reveals that the contribution of each Dirac valley is significantly modulated by the in-plane field orientation. This originates from anisotropic Dirac Fermi surfaces with strong disparity in the momentum-dependent interlayer coupling. Furthermore, we found a signature of broken valley symmetry at high magnetic fields. These findings demonstrate that a quasi-two-dimensional anisotropic Dirac system can host a valley-polarized interlayer current through magnetic valley control.

Original language	English
Article number	156602
Journal	Physical Review Letters
Volume	113
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevLett.113.156602
State	Published - 6 Oct 2014

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10.1103/PhysRevLett.113.156602

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title = "Valley-polarized interlayer conduction of anisotropic Dirac fermions in SrMnBi2",

abstract = "We report the valley-selective interlayer conduction of SrMnBi2 under in-plane magnetic fields. The c-axis resistivity of SrMnBi2 shows clear angular magnetoresistance oscillations indicating coherent interlayer conduction. Strong fourfold variation of the coherent peak in the c-axis resistivity reveals that the contribution of each Dirac valley is significantly modulated by the in-plane field orientation. This originates from anisotropic Dirac Fermi surfaces with strong disparity in the momentum-dependent interlayer coupling. Furthermore, we found a signature of broken valley symmetry at high magnetic fields. These findings demonstrate that a quasi-two-dimensional anisotropic Dirac system can host a valley-polarized interlayer current through magnetic valley control.",

author = "Jo, \{Y. J.\} and Joonbum Park and G. Lee and Eom, \{Man Jin\} and Choi, \{E. S.\} and Shim, \{Ji Hoon\} and W. Kang and Kim, \{Jun Sung\}",

note = "Publisher Copyright: {\textcopyright} 2014 American Physical Society.",

year = "2014",

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doi = "10.1103/PhysRevLett.113.156602",

language = "English",

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T1 - Valley-polarized interlayer conduction of anisotropic Dirac fermions in SrMnBi2

AU - Jo, Y. J.

AU - Park, Joonbum

AU - Lee, G.

AU - Eom, Man Jin

AU - Choi, E. S.

AU - Shim, Ji Hoon

AU - Kang, W.

AU - Kim, Jun Sung

PY - 2014/10/6

Y1 - 2014/10/6

N2 - We report the valley-selective interlayer conduction of SrMnBi2 under in-plane magnetic fields. The c-axis resistivity of SrMnBi2 shows clear angular magnetoresistance oscillations indicating coherent interlayer conduction. Strong fourfold variation of the coherent peak in the c-axis resistivity reveals that the contribution of each Dirac valley is significantly modulated by the in-plane field orientation. This originates from anisotropic Dirac Fermi surfaces with strong disparity in the momentum-dependent interlayer coupling. Furthermore, we found a signature of broken valley symmetry at high magnetic fields. These findings demonstrate that a quasi-two-dimensional anisotropic Dirac system can host a valley-polarized interlayer current through magnetic valley control.

AB - We report the valley-selective interlayer conduction of SrMnBi2 under in-plane magnetic fields. The c-axis resistivity of SrMnBi2 shows clear angular magnetoresistance oscillations indicating coherent interlayer conduction. Strong fourfold variation of the coherent peak in the c-axis resistivity reveals that the contribution of each Dirac valley is significantly modulated by the in-plane field orientation. This originates from anisotropic Dirac Fermi surfaces with strong disparity in the momentum-dependent interlayer coupling. Furthermore, we found a signature of broken valley symmetry at high magnetic fields. These findings demonstrate that a quasi-two-dimensional anisotropic Dirac system can host a valley-polarized interlayer current through magnetic valley control.

UR - https://www.scopus.com/pages/publications/84907831065

U2 - 10.1103/PhysRevLett.113.156602

DO - 10.1103/PhysRevLett.113.156602

M3 - Article

AN - SCOPUS:84907831065

SN - 0031-9007

VL - 113

JO - Physical Review Letters

JF - Physical Review Letters

IS - 15

M1 - 156602

ER -

Valley-polarized interlayer conduction of anisotropic Dirac fermions in SrMnBi2

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