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Observation and control of maximal Chern numbers in a chiral topological semimetal

机译:手性拓扑半岩中的最大挖掘号的观察与控制

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摘要

Topological semimetals feature protected nodal band degeneracies characterized by a topological invariant known as the Chern number (C). Nodal band crossings with linear dispersion are expected to have at most vertical bar C vertical bar = 4, which sets an upper limit to the magnitude of many topological phenomena in these materials. Here, we show that the chiral crystal palladium gallium (PdGa) displays multifold band crossings, which are connected by exactly four surface Fermi arcs, thus proving that they carry the maximal Chern number magnitude of 4. By comparing two enantiomers, we observe a reversal of their Fermi-arc velocities, which demonstrates that the handedness of chiral crystals can be used to control the sign of their Chern numbers.
机译:拓扑半态特征受保护的节点带天才,其特征在于称为CHERN号码(C)的拓扑不变。预期具有线性分散的节点带横向于大多数垂直条C垂直条= 4,其设定了这些材料中许多拓扑现象的上限。在这里,我们表明手性晶钯镓(PDGA)显示多滤带交叉,其通过恰好四个表面FERMI弧连接,从而证明它们携带最大的CHERN数量幅度4.通过比较两个对映体,我们观察逆转他们的费米电弧速度,表明手性晶体的用法可用于控制其Chern系数的标志。

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  • 来源
    《Science》 |2020年第6500期|179-183|共5页
  • 作者

    Schroter Niels B. M.; Stolz Samuel; Manna Kaustuv; de Juan Fernando; Vergniory Maia G.; Krieger Jonas A.; Pei Ding; Schmitt Thorsten; Dudin Pavel; Kim Timur K.; Cacho Cephise; Bradlyn Barry; Borrmann Horst; Schmidt Marcus; Widmer Roland; Strokov Vladimir; Felser Claudia;

  • 作者单位

    Paul Scherrer Inst Swiss Light Source CH-5232 Villigen Switzerland;

    Swiss Fed Labs Mat Sci & Technol EMPA CH-8600 Dubendorf Switzerland|Ecole Polytech Fed Lausanne Inst Condensed Matter Phys Stn 3 CH-1015 Lausanne Switzerland;

    Max Planck Inst Chem Phys Solids D-01187 Dresden Germany;

    Donostia Int Phys Ctr Donostia San Sebastian 20018 Spain|Basque Fdn Sci IKERBASQUE Maria Diaz de Haro 3 Bilbao 48013 Spain;

    Donostia Int Phys Ctr Donostia San Sebastian 20018 Spain|Basque Fdn Sci IKERBASQUE Maria Diaz de Haro 3 Bilbao 48013 Spain;

    Paul Scherrer Inst Swiss Light Source CH-5232 Villigen Switzerland|Paul Scherrer Inst Lab Muon Spin Spect CH-5232 Villigen Switzerland|Swiss Fed Inst Technol Lab Festkorperphys CH-8093 Zurich Switzerland;

    Univ Oxford Clarendon Lab Dept Phys Oxford OX1 3PU England;

    Paul Scherrer Inst Swiss Light Source CH-5232 Villigen Switzerland;

    Diamond Light Source Didcot OX11 0DE Oxon England|Synchrotron Soleil F-91192 Gif Sur Yvette France;

    Diamond Light Source Didcot OX11 0DE Oxon England;

    Diamond Light Source Didcot OX11 0DE Oxon England;

    Univ Illinois Dept Phys Urbana IL 61801 USA|Univ Illinois Inst Condensed Matter Theory Urbana IL 61801 USA;

    Max Planck Inst Chem Phys Solids D-01187 Dresden Germany;

    Max Planck Inst Chem Phys Solids D-01187 Dresden Germany;

    Swiss Fed Labs Mat Sci & Technol EMPA CH-8600 Dubendorf Switzerland;

    Paul Scherrer Inst Swiss Light Source CH-5232 Villigen Switzerland;

    Max Planck Inst Chem Phys Solids D-01187 Dresden Germany;

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