Interacting and fractional topological insulators via the Z 2 chiral anomaly

MacIej Koch-Janusz, Zohar Ringel

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11 Scopus citations


Recently, it was shown that the topological properties of 2D and 3D topological insulators are captured by a Z2 chiral anomaly in the boundary field theory. It remained, however, unclear whether the anomaly survives electron-electron interactions. We show that this is, indeed, the case, thereby providing an alternative formalism for treating topological insulators in the interacting regime. We apply this formalism to fractional topological insulators (FTI) via projective/parton constructions and use it to test the robustness of all fractional topological insulators that can be described in this way. The stability criterion we develop is easy to check and based on the pair switching behavior of the noninteracting partons. In particular, we find that FTIs based on bosonic Laughlin states and the M=0 bosonic Read-Rezayi states are fragile and may have a completely gapped and nondegenerate edge spectrum in each topological sector. In contrast, FTIs based on fermionic Zk Read-Rezayi states with M=1 and odd k and the bosonic 3D topological insulator with a π/4 fractional θ term are topologically stable.

Original languageAmerican English
Article number075137
JournalPhysical Review B - Condensed Matter and Materials Physics
Issue number7
StatePublished - 27 Feb 2014
Externally publishedYes


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