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RESEARCH PRODUCT
Chiralities of nodal points along high symmetry lines with screw rotation symmetry
Erick TuiranBernardo UribeBernardo UribeRafael González-hernándezRafael González-hernándezsubject
Condensed Matter - Materials ScienceChern classComplex lineMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesCyclic group02 engineering and technology021001 nanoscience & nanotechnologyCoupling (probability)01 natural sciences0103 physical sciencesHomogeneous spaceFOS: MathematicsAlgebraic Topology (math.AT)Equivariant mapMathematics - Algebraic TopologyInvariant (mathematics)Symmetry (geometry)010306 general physics0210 nano-technologyMathematical physicsdescription
Screw rotations in nonsymmorphic space group symmetries induce the presence of hourglass and accordion shape band structures along screw invariant lines whenever spin-orbit coupling is nonnegligible. These structures induce topological enforced Weyl points on the band intersections. In this work we show that the chirality of each Weyl point is related to the representations of the cyclic group on the bands that form the intersection. To achieve this, we calculate the Picard group of isomorphism classes of complex line bundles over the 2-dimensional sphere with cyclic group action, and we show how the chirality (Chern number) relates to the eigenvalues of the rotation action on the rotation invariant points. Then we write an explicit Hamiltonian endowed with a cyclic action whose eigenfunctions restricted to a sphere realize the equivariant line bundles described before. As a consequence of this relation, we determine the chiralities of the nodal points appearing on the hourglass and accordion shape structures on screw invariant lines of the nonsymmorphic materials PI3 (SG: P63), Pd3N (SG: P6322), AgF3 (SG: P6122) and AuF3 (SG: P6122), and we corroborate these results with the Berry curvature and symmetry eigenvalues calculations for the electronic wavefunction.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-01-01 |