Higher-order topology protected by latent crystalline symmetries

L. Eek; M. Röntgen; A. Moustaj; C. Morais Smith

doi:10.48550/arXiv.2405.02704

Higher-order topology protected by latent crystalline symmetries

L. Eek, M. Röntgen, A. Moustaj, C. Morais Smith

Research output: Working paper › Preprint › Academic

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.

Original language	English
Publisher	arXiv
Number of pages	24
DOIs	https://doi.org/10.48550/arXiv.2405.02704
Publication status	Published - 4 May 2024

Bibliographical note

20 pages, 8 figures. 17 pages main text and 3 pages appendix. Regular article to be submitted to PRB

Keywords

cond-mat.mes-hall
cond-mat.dis-nn
cond-mat.str-el
quant-ph

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10.48550/arXiv.2405.02704Licence: CC BY

2405.02704v2Submitted manuscript, 4.12 MBLicence: CC BY

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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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AU - Röntgen, M.

AU - Moustaj, A.

AU - Smith, C. Morais

N1 - 20 pages, 8 figures. 17 pages main text and 3 pages appendix. Regular article to be submitted to PRB

PY - 2024/5/4

Y1 - 2024/5/4

N2 - 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.

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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M3 - Preprint

BT - Higher-order topology protected by latent crystalline symmetries

PB - arXiv

ER -

Higher-order topology protected by latent crystalline symmetries

Abstract

Bibliographical note

Keywords

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