Higher-order topology protected by latent crystalline symmetries

Lumen Eek; Malte Röntgen; Anouar Moustaj; Cristiane Morais Smith

doi:10.21468/SciPostPhys.18.2.061

Higher-order topology protected by latent crystalline symmetries

Lumen Eek, Malte Röntgen, Anouar Moustaj, Cristiane Morais Smith

CNRS

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

We demonstrate that rotation symmetry is not a necessary requirement for the existence of fractional corner charges in C_n-symmetric higher-order topological crystalline insulators. Instead, it is sufficient to have a latent rotation symmetry, which may be revealed upon performing an isospectral reduction on the system. We introduce the concept of a filling anomaly for latent crystalline symmetric systems, and propose modified topological invariants. The notion of higher-order topology in two dimensions protected by C_n symmetry is thus generalized to a protection by latent symmetry. Our claims are corroborated by concrete examples of models that show non-trivial corner charge in the absence of C_n-symmetry. This work extends the classification of topological crystalline insulators to include latent symmetries.

Original language	English
Article number	061
Number of pages	36
Journal	SciPost Physics
Volume	18
Issue number	2
DOIs	https://doi.org/10.21468/SciPostPhys.18.2.061
Publication status	Published - Feb 2025

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© L. Eek et al.

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title = "Higher-order topology protected by latent crystalline symmetries",

abstract = "We demonstrate that rotation symmetry is not a necessary requirement for the existence of fractional corner charges in Cn-symmetric higher-order topological crystalline insulators. Instead, it is sufficient to have a latent rotation symmetry, which may be revealed upon performing an isospectral reduction on the system. We introduce the concept of a filling anomaly for latent crystalline symmetric systems, and propose modified topological invariants. The notion of higher-order topology in two dimensions protected by Cn symmetry is thus generalized to a protection by latent symmetry. Our claims are corroborated by concrete examples of models that show non-trivial corner charge in the absence of Cn-symmetry. This work extends the classification of topological crystalline insulators to include latent symmetries.",

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AB - We demonstrate that rotation symmetry is not a necessary requirement for the existence of fractional corner charges in Cn-symmetric higher-order topological crystalline insulators. Instead, it is sufficient to have a latent rotation symmetry, which may be revealed upon performing an isospectral reduction on the system. We introduce the concept of a filling anomaly for latent crystalline symmetric systems, and propose modified topological invariants. The notion of higher-order topology in two dimensions protected by Cn symmetry is thus generalized to a protection by latent symmetry. Our claims are corroborated by concrete examples of models that show non-trivial corner charge in the absence of Cn-symmetry. This work extends the classification of topological crystalline insulators to include latent symmetries.

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Higher-order topology protected by latent crystalline symmetries

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