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W2955290781 abstract "Weyl semimetal may be thought of as a gapless topological phase protected by the chiral anomaly, where the symmetries involved in the anomaly are the $U(1)$ charge conservation and the crystal translational symmetry. The absence of a band gap in a weakly interacting Weyl semimetal is mandated by the electronic structure topology and is guaranteed as long as the symmetries and the anomaly are intact. The nontrivial topology also manifests in the Fermi arc surface states and topological response, in particular taking the form of an anomalous Hall effect in magnetic Weyl semimetals, whose magnitude is only determined by the location of the Weyl nodes in the Brillouin zone. Here we consider the situation when the interactions are not weak and ask whether it is possible to open a gap in a magnetic Weyl semimetal while preserving its nontrivial electronic structure topology along with the translational and the charge conservation symmetries. Surprisingly, the answer turns out to be yes. The resulting topologically ordered state provides a nontrivial realization of the fractional quantum Hall effect in three spatial dimensions in the absence of an external magnetic field, which cannot be viewed as a stack of two dimensional states. Our state contains loop excitations with nontrivial braiding statistics when linked with lattice dislocations." @default.
W2955290781 created "2019-07-12" @default.
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W2955290781 creator A5061579832 @default.
W2955290781 date "2020-03-06" @default.
W2955290781 modified "2023-09-28" @default.
W2955290781 title "Fractional Quantum Hall Effect in Weyl Semimetals" @default.
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W2955290781 doi "https://doi.org/10.1103/physrevlett.124.096603" @default.
W2955290781 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32202893" @default.
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