Journal article

SymTFT for (3+1)d gapless SPTs and obstructions to confinement

Abstract:: We study gapless phases in (3+1)d in the presence of 1-form and non-invertible duality symmetries. Using the Symmetry Topological Field Theory (SymTFT) approach, we classify the gapless symmetry-protected (gSPT) phases in these setups, with particular focus on intrinsically gSPTs (igSPTs). These are symmetry protected critical points which cannot be deformed to a trivially gapped phase without spontaneously breaking the symmetry. Although these are by now well-known in (1+1)d, we demonstrate their existence in (3+1)d gauge theories. Here, they have a clear physical interpretation in terms of an obstruction to confinement, even though the full 1-form symmetry does not suffer from 't Hooft anomalies. These igSPT phases provide a new way to realize 1-form symmetries in CFTs, that has no analog for gapped phases. The SymTFT approach allows for a direct generalization from invertible symmetries to non-invertible duality symmetries, for which we study gSPT and igSPT phases as well. We accompany these theoretical results with concrete physical examples realizing such phases and explain how obstruction to confinement is detected at the level of symmetric deformations.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Antinucci, A., Copetti, C., & Schäfer-Nameki, S. (2025). SymTFT for (3+1)d gapless SPTs and obstructions to confinement. SciPost Physics, 18(3).

MLA Style

Antinucci, A, et al. “SymTFT for (3+1)d Gapless SPTs and Obstructions to Confinement.” SciPost Physics, vol. 18, no. 3, 2025.

Chicago Style

Antinucci, A, C Copetti, and S Schäfer-Nameki. 2025. “SymTFT for (3+1)d Gapless SPTs and Obstructions to Confinement.” SciPost Physics 18 (3).
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Files:: Antinucci_et_al_2025_SymTFT_for_3.pdf

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Publisher copy:: 10.21468/scipostphys.18.3.114

Authors

+ Antinucci, A More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Mathematical Institute
Role:: Author

+ Copetti, C More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Mathematical Institute
Role:: Author
ORCID:: 0000-0001-7295-0660

+ Schäfer-Nameki, S More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Mathematical Institute
Role:: Author
ORCID:: 0000-0003-0138-0407

+ Science and Technology Facilities Council More from this funder

Funder identifier:: https://ror.org/057g20z61
Grant:: ST/X000761/1

+ European Research Council More from this funder

Funder identifier:: https://ror.org/0472cxd90

Publisher:: SciPost
Journal:: SciPost Physics More from this journal
Volume:: 18
Issue:: 3
Article number:: 114
Publication date:: 2025-03-31
Acceptance date:: 2025-03-18
DOI:: 10.21468/scipostphys.18.3.114
EISSN:: 2542-4653
ISSN:: 2542-4653

Language:: English
Keywords:: Gapless playback

Physics

Condensed matter physics
Pubs id:: 2117311
Local pid:: pubs:2117311
Source identifiers:: W4408997113
Deposit date:: 2025-05-13
ARK identifier:: ark:/29072/ora_3ed87a9a675347d8b0c6f5d9e1994453

Terms of use

Copyright holder:: Antinucci et al
Copyright date:: 2025
Rights statement:: © 2025 Antinucci et al. This work is licensed under the Creative Commons Attribution 4.0 International License. Published by the SciPost Foundation

Licence:: CC Attribution (CC BY)

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