Alterelectrics exhibit quadrupolar piezoelectricity, hyperbolic wave dispersion, and surface-dependent anisotropic electronic transport as an electric analog to altermagnets.
Vanderbilt,Berry phases in electronic structure the- ory: electric polarization, orbital magnetization and topo- logical insulators(Cambridge University Press, 2018)
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Symmetry-enforced stable zeros in exciton wave functions constrain relative exciton-band topology and relative band topology in 1D and 2D inversion- and rotation-symmetric two-band systems.
Shift vectors are reinterpreted as the intrinsic dipole moment of a single correlated electronic state, recovering prior expressions as special cases.
Non-Abelian multigap topology with Euler class invariants in kagome NHC MOFs induces a controllable magnetononlinear Hall effect.
DFT calculations identify spin-1, double Weyl, Rarita-Schwinger-Weyl, and double spin-1 excitations plus eight new type-II Weyl points without SOC and twelve more with SOC in PdAsS, PdSbSe, and PdBiTe, with orbital hybridization shaping their low-energy bands.
First-principles and tight-binding calculations on three FI/TI van der Waals stacks predict a magnetization-induced gap that supports half-quantized anomalous Hall conductance of e²/2h.
citing papers explorer
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Multipolar Piezoelectricity and Anisotropic Surface Transport in Alterelectrics
Alterelectrics exhibit quadrupolar piezoelectricity, hyperbolic wave dispersion, and surface-dependent anisotropic electronic transport as an electric analog to altermagnets.
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Stable Wave-Function Zeros Indicate Exciton Topology
Symmetry-enforced stable zeros in exciton wave functions constrain relative exciton-band topology and relative band topology in 1D and 2D inversion- and rotation-symmetric two-band systems.
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Generalized Shift Vector as the Intrinsic Dipole of Many-Body Correlated Electronic States
Shift vectors are reinterpreted as the intrinsic dipole moment of a single correlated electronic state, recovering prior expressions as special cases.
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Magnetononlinear Hall effect from multigap topology in metal-organic frameworks
Non-Abelian multigap topology with Euler class invariants in kagome NHC MOFs induces a controllable magnetononlinear Hall effect.
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Unconventional excitations and orbital-driven low-energy dispersions in chiral topological semimetals PdAsS, PdSbSe, and PdBiTe: a first-principles study
DFT calculations identify spin-1, double Weyl, Rarita-Schwinger-Weyl, and double spin-1 excitations plus eight new type-II Weyl points without SOC and twelve more with SOC in PdAsS, PdSbSe, and PdBiTe, with orbital hybridization shaping their low-energy bands.
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Half-quantized anomalous Hall conductance in topological insulator/ferromagnet van der Waals heterostructures
First-principles and tight-binding calculations on three FI/TI van der Waals stacks predict a magnetization-induced gap that supports half-quantized anomalous Hall conductance of e²/2h.