Remarks on geometric engineering, symmetry TFTs and anomalies

Del Zotto, Michele; Meynet, Shani Nadir; Moscrop, Robert

doi:10.1007/jhep07(2024)220

J. High Energ. Phys.

2024

DOI: 10.1007/jhep07(2024)220

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Remarks on geometric engineering, symmetry TFTs and anomalies

Michele Del Zotto,

Shani Nadir Meynet,

Robert Moscrop

Abstract: Geometric engineering is a collection of tools developed to establish dictionaries between local singularities in string theory and (supersymmetric) quantum fields. Extended operators and defects, as well as their higher quantum numbers captured by topological symmetries, can be encoded within geometric engineering dictionaries. In this paper we revisit and clarify aspects of these techniques, with special emphasis on ’t Hooft anomalies, interpreted from the SymTFT perspective as obstructions to the existence … Show more

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Cited by 2 publications

References 187 publications

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Generalized symmetries in 2D from string theory: SymTFTs, intrinsic relativeness, and anomalies of non-invertible symmetries

Franco,

2024

J. High Energ. Phys.

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Generalized global symmetries, in particular non-invertible and categorical symmetries, have become a focal point in the recent study of quantum field theory (QFT). In this paper, we investigate aspects of symmetry topological field theories (SymTFTs) and anomalies of non-invertible symmetries for 2D QFTs from a string theory perspective. Our primary focus is on an infinite class of 2D QFTs engineered on D1-branes probing toric Calabi-Yau 4-fold singularities. We derive 3D SymTFTs from the topological sector of IIB supergravity and discuss the resulting 2D QFTs, which can be intrinsically relative or absolute. For intrinsically relative QFTs, we propose a sufficient condition for them to exist. For absolute QFTs, we show that they exhibit non-invertible symmetries with an elegant brane origin. Furthermore, we find that these non-invertible symmetries can suffer from anomalies, which we discuss from a top-down perspective. Explicit examples are provided, including theories for Y(p,k)(ℙ2), Y(2,0)(ℙ1 × ℙ1), and ℂ4/ℤ4 geometries.

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Generalized symmetries in 2D from string theory: SymTFTs, intrinsic relativeness, and anomalies of non-invertible symmetries

Franco,

2024

J. High Energ. Phys.

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Non-invertible surface defects in 2+1d QFTs from half spacetime gauging

Cui,

Haghighat,

Ruggeri

2024

J. High Energ. Phys.

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We study duality defects in 2+1d theories with $$ {\mathbb{Z}}_N^{(0)}\times {\mathbb{Z}}_N^{(1)} $$ ℤ N 0 × ℤ N 1 global symmetry and trivial mixed ’t Hooft anomaly. By gauging these symmetries simultaneously in half of the spacetime, we define duality defects for theories that are self-dual under gauging. We calculate the fusion rules involving duality defects and show that they obey a fusion 2-category. We also construct the corresponding symmetry topological field theory, obtained from a four-dimensional BF theory gauging a $$ {\mathbb{Z}}_N^{\textrm{EM}} $$ ℤ N EM electric-magnetic symmetry. Furthermore, we provide explicit examples of such duality defects in U(1) × U(1) gauge theories and in more general product theories. Finally, we find duality defects in non-Lagrangian theories obtained by compactification of 6d $$ \mathcal{N} $$ N = (2, 0) SCFTs of type AN−1 on various three-manifolds.

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Remarks on geometric engineering, symmetry TFTs and anomalies

Cited by 2 publications

References 187 publications

Generalized symmetries in 2D from string theory: SymTFTs, intrinsic relativeness, and anomalies of non-invertible symmetries

Generalized symmetries in 2D from string theory: SymTFTs, intrinsic relativeness, and anomalies of non-invertible symmetries

Non-invertible surface defects in 2+1d QFTs from half spacetime gauging

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