A long exact sequence in symmetry breaking: order parameter constraints, defect anomaly-matching, and higher Berry phases

Arun Debray; Sanath K. Devalapurkar; Cameron Krulewski; Yu Leon Liu; Natalia Pacheco-Tallaj; Ryan Thorngren

doi:10.1007/JHEP07(2025)007

A long exact sequence in symmetry breaking: order parameter constraints, defect anomaly-matching, and higher Berry phases

Arun Debray
, Sanath K. Devalapurkar
, Cameron Krulewski
, Yu Leon Liu
, Natalia Pacheco-Tallaj
, Ryan Thorngren

Mathematics

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

2 Scopus citations

Abstract

We study defects in symmetry breaking phases, such as domain walls, vortices, and hedgehogs. In particular, we focus on the localized gapless excitations which sometimes occur at the cores of these objects. These are topologically protected by an ’t Hooft anomaly. We classify different symmetry breaking phases in terms of the anomalies of these defects, and relate them to the anomaly of the broken symmetry by an anomaly-matching formula. We also derive the obstruction to the existence of a symmetry breaking phase with a local defect. We obtain these results using a long exact sequence of groups of invertible field theories, which we call the “symmetry breaking long exact sequence” (SBLES). The mathematical backbone of the SBLES is studied in a companion paper [1]. Our work further develops the theory of higher Berry phase and its bulk-boundary correspondence, and serves as a new computational tool for classifying symmetry protected topological phases.

Original language	English
Article number	7
Journal	Journal of High Energy Physics
Volume	2025
Issue number	7
DOIs	https://doi.org/10.1007/JHEP07(2025)007
State	Published - Jul 2025

Bibliographical note

Publisher Copyright:
© The Author(s) 2025.

Funding

Part of this project was completed while AD, CK, and YLL visited the Perimeter Institute for Theoretical Physics for the 2022 workshop on Global Categorical Symmetries; research at Perimeter is supported by the Government of Canada through Industry Canada and by the Province of Ontario through the Ministry of Research & Innovation. The workshop on Global Categorical Symmetries was supported by the Simons Collaboration on Global Categorical Symmetries. We thank both Perimeter and the Simons Collaboration for Global Categorical Symmetries for their hospitality. YLL is supported by the Simons Collaboration on Global Categorical Symmetries. CK and NPT are supported by NSF DGE-2141064 and SKD is supported by NSF DGE-2140743.

Funders	Funder number
Industry Canada
Canada Excellence Research Chairs, Government of Canada
Ontario Ministry of Research, Innovation and Science
National Science Foundation Arctic Social Science Program	DGE-2141064, DGE-2140743

Keywords

Anomalies in Field and String Theories
Topological Field Theories

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1007/JHEP07(2025)007

Cite this

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abstract = "We study defects in symmetry breaking phases, such as domain walls, vortices, and hedgehogs. In particular, we focus on the localized gapless excitations which sometimes occur at the cores of these objects. These are topologically protected by an {\textquoteright}t Hooft anomaly. We classify different symmetry breaking phases in terms of the anomalies of these defects, and relate them to the anomaly of the broken symmetry by an anomaly-matching formula. We also derive the obstruction to the existence of a symmetry breaking phase with a local defect. We obtain these results using a long exact sequence of groups of invertible field theories, which we call the “symmetry breaking long exact sequence” (SBLES). The mathematical backbone of the SBLES is studied in a companion paper [1]. Our work further develops the theory of higher Berry phase and its bulk-boundary correspondence, and serves as a new computational tool for classifying symmetry protected topological phases.",

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AU - Debray, Arun

AU - Devalapurkar, Sanath K.

AU - Krulewski, Cameron

AU - Liu, Yu Leon

AU - Pacheco-Tallaj, Natalia

AU - Thorngren, Ryan

PY - 2025/7

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N2 - We study defects in symmetry breaking phases, such as domain walls, vortices, and hedgehogs. In particular, we focus on the localized gapless excitations which sometimes occur at the cores of these objects. These are topologically protected by an ’t Hooft anomaly. We classify different symmetry breaking phases in terms of the anomalies of these defects, and relate them to the anomaly of the broken symmetry by an anomaly-matching formula. We also derive the obstruction to the existence of a symmetry breaking phase with a local defect. We obtain these results using a long exact sequence of groups of invertible field theories, which we call the “symmetry breaking long exact sequence” (SBLES). The mathematical backbone of the SBLES is studied in a companion paper [1]. Our work further develops the theory of higher Berry phase and its bulk-boundary correspondence, and serves as a new computational tool for classifying symmetry protected topological phases.

AB - We study defects in symmetry breaking phases, such as domain walls, vortices, and hedgehogs. In particular, we focus on the localized gapless excitations which sometimes occur at the cores of these objects. These are topologically protected by an ’t Hooft anomaly. We classify different symmetry breaking phases in terms of the anomalies of these defects, and relate them to the anomaly of the broken symmetry by an anomaly-matching formula. We also derive the obstruction to the existence of a symmetry breaking phase with a local defect. We obtain these results using a long exact sequence of groups of invertible field theories, which we call the “symmetry breaking long exact sequence” (SBLES). The mathematical backbone of the SBLES is studied in a companion paper [1]. Our work further develops the theory of higher Berry phase and its bulk-boundary correspondence, and serves as a new computational tool for classifying symmetry protected topological phases.

KW - Anomalies in Field and String Theories

KW - Topological Field Theories

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A long exact sequence in symmetry breaking: order parameter constraints, defect anomaly-matching, and higher Berry phases

Abstract

Bibliographical note

Funding

Keywords

ASJC Scopus subject areas

Access to Document

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