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Literature DB >> 25354961

Signatures of Dirac fermion-mediated magnetic order.

Paolo Sessi¹, Felix Reis¹, Thomas Bathon¹, Konstantin A Kokh², Oleg E Tereshchenko³, Matthias Bode⁴.

Abstract

The spin-momentum locking of topological states offers an ideal platform to explore novel magnetoelectric effects. These intimately depend on the ability to manipulate the spin texture in a controlled way. Here we combine scanning tunnelling microscopy with single-atom deposition to map the evolution of topological states under the influence of different magnetic perturbations. We obtain signatures of Dirac fermion-mediated magnetic order for extremely dilute adatom concentrations. This striking observation is found to critically depend on the single adatoms' magnetic anisotropy and the position of the Fermi level. Our findings open new perspectives in spin engineering topological states at the atomic scale and pave the way to explore novel spin-related topological phenomena with promising potential for applications.

Year: 2014 PMID： 25354961 DOI： 10.1038/ncomms6349

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 14.919

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Cited

5 in total

1. Direct observation of many-body charge density oscillations in a two-dimensional electron gas.

Authors: Paolo Sessi; Vyacheslav M Silkin; Ilya A Nechaev; Thomas Bathon; Lydia El-Kareh; Evgueni V Chulkov; Pedro M Echenique; Matthias Bode
Journal: Nat Commun Date: 2015-10-26 Impact factor: 14.919

2. Imaging Dirac-mass disorder from magnetic dopant atoms in the ferromagnetic topological insulator Crx(Bi0.1Sb0.9)2-xTe3.

Authors: Inhee Lee; Chung Koo Kim; Jinho Lee; Simon J L Billinge; Ruidan Zhong; John A Schneeloch; Tiansheng Liu; Tonica Valla; John M Tranquada; Genda Gu; J C Séamus Davis
Journal: Proc Natl Acad Sci U S A Date: 2015-01-20 Impact factor: 11.205

Signatures of Dirac fermion-mediated magnetic order.

1. Direct observation of many-body charge density oscillations in a two-dimensional electron gas.

2. Imaging Dirac-mass disorder from magnetic dopant atoms in the ferromagnetic topological insulator Crx(Bi0.1Sb0.9)2-xTe3.

3. Superconducting topological surface states in the noncentrosymmetric bulk superconductor PbTaSe₂.

4. Dual nature of magnetic dopants and competing trends in topological insulators.

5. An orbitally derived single-atom magnetic memory.

Signatures of Dirac fermion-mediated magnetic order.

1. Direct observation of many-body charge density oscillations in a two-dimensional electron gas.

2. Imaging Dirac-mass disorder from magnetic dopant atoms in the ferromagnetic topological insulator Crx(Bi0.1Sb0.9)2-xTe3.

3. Superconducting topological surface states in the noncentrosymmetric bulk superconductor PbTaSe2.

4. Dual nature of magnetic dopants and competing trends in topological insulators.

5. An orbitally derived single-atom magnetic memory.

3. Superconducting topological surface states in the noncentrosymmetric bulk superconductor PbTaSe₂.