Infinite distances in multicritical CFTs and higher-spin holography

Ivano Basile; Andrea Campoleoni; Simon Pekar; Evgeny Skvortsov

doi:10.1007/JHEP03(2023)075

Infinite distances in multicritical CFTs and higher-spin holography

Ivano Basile, Andrea Campoleoni, Simon Pekar, Evgeny Skvortsov

Université de Mons

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

Abstract

We investigate the swampland distance conjecture in higher-spin gravity. To this end, we study multicritical generalizations of large-N vector models, bosonic and fermionic, and we compute the quantum information distance along selected renormalization-group trajectories toward the higher-spin limit. In contrast to the expected exponential decay of higher-spin masses or anomalous dimensions, we find that infinite-distance limits in these models lead to a power-like decay. This suggests that stringy exponential decays are characteristic of matrix-like gauge theories, rather than vector models. We corroborate this notion studying the information distance along coupling variations in Chern-Simons-matter CFTs, where matrix-like degrees of freedom dominate over vector-like ones.

Original language	English
Article number	75
Journal	Journal of High Energy Physics
Volume	2023
Issue number	3
DOIs	https://doi.org/10.1007/JHEP03(2023)075
Publication status	Published - 1 Mar 2023
Externally published	Yes

Keywords

1/N Expansion
Gauge-Gravity Correspondence
Higher Spin Gravity
Higher Spin Symmetry

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10.1007/JHEP03(2023)075

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title = "Infinite distances in multicritical CFTs and higher-spin holography",

abstract = "We investigate the swampland distance conjecture in higher-spin gravity. To this end, we study multicritical generalizations of large-N vector models, bosonic and fermionic, and we compute the quantum information distance along selected renormalization-group trajectories toward the higher-spin limit. In contrast to the expected exponential decay of higher-spin masses or anomalous dimensions, we find that infinite-distance limits in these models lead to a power-like decay. This suggests that stringy exponential decays are characteristic of matrix-like gauge theories, rather than vector models. We corroborate this notion studying the information distance along coupling variations in Chern-Simons-matter CFTs, where matrix-like degrees of freedom dominate over vector-like ones.",

keywords = "1/N Expansion, Gauge-Gravity Correspondence, Higher Spin Gravity, Higher Spin Symmetry",

author = "Ivano Basile and Andrea Campoleoni and Simon Pekar and Evgeny Skvortsov",

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T1 - Infinite distances in multicritical CFTs and higher-spin holography

AU - Basile, Ivano

AU - Campoleoni, Andrea

AU - Pekar, Simon

AU - Skvortsov, Evgeny

PY - 2023/3/1

Y1 - 2023/3/1

N2 - We investigate the swampland distance conjecture in higher-spin gravity. To this end, we study multicritical generalizations of large-N vector models, bosonic and fermionic, and we compute the quantum information distance along selected renormalization-group trajectories toward the higher-spin limit. In contrast to the expected exponential decay of higher-spin masses or anomalous dimensions, we find that infinite-distance limits in these models lead to a power-like decay. This suggests that stringy exponential decays are characteristic of matrix-like gauge theories, rather than vector models. We corroborate this notion studying the information distance along coupling variations in Chern-Simons-matter CFTs, where matrix-like degrees of freedom dominate over vector-like ones.

AB - We investigate the swampland distance conjecture in higher-spin gravity. To this end, we study multicritical generalizations of large-N vector models, bosonic and fermionic, and we compute the quantum information distance along selected renormalization-group trajectories toward the higher-spin limit. In contrast to the expected exponential decay of higher-spin masses or anomalous dimensions, we find that infinite-distance limits in these models lead to a power-like decay. This suggests that stringy exponential decays are characteristic of matrix-like gauge theories, rather than vector models. We corroborate this notion studying the information distance along coupling variations in Chern-Simons-matter CFTs, where matrix-like degrees of freedom dominate over vector-like ones.

KW - 1/N Expansion

KW - Gauge-Gravity Correspondence

KW - Higher Spin Gravity

KW - Higher Spin Symmetry

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DO - 10.1007/JHEP03(2023)075

M3 - Article

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SN - 1126-6708

VL - 2023

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 3

M1 - 75

ER -

Infinite distances in multicritical CFTs and higher-spin holography

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Keywords

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