Analytic and numerical bootstrap of CFTs with $O(m)\times O(n)$ global symmetry in 3D

Henriksson, Johan; Kousvos, Stefanos R.; Stergiou, Andreas

doi:10.21468/SciPostPhys.9.3.035

SciPost Physics

Analytic and numerical bootstrap of CFTs with $O(m)\times O(n)$ global symmetry in 3D

Johan Henriksson, Stefanos R. Kousvos, Andreas Stergiou

SciPost Phys. 9, 035 (2020) · published 10 September 2020

doi: 10.21468/SciPostPhys.9.3.035
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Submissions/Reports

Abstract

Motivated by applications to critical phenomena and open theoretical questions, we study conformal field theories with $O(m)\times O(n)$ global symmetry in $d=3$ spacetime dimensions. We use both analytic and numerical bootstrap techniques. Using the analytic bootstrap, we calculate anomalous dimensions and OPE coefficients as power series in $\varepsilon=4-d$ and in $1/n$, with a method that generalizes to arbitrary global symmetry. Whenever comparison is possible, our results agree with earlier results obtained with diagrammatic methods in the literature. Using the numerical bootstrap, we obtain a wide variety of operator dimension bounds, and we find several islands (isolated allowed regions) in parameter space for $O(2)\times O(n)$ theories for various values of $n$. Some of these islands can be attributed to fixed points predicted by perturbative methods like the $\varepsilon$ and large-$n$ expansions, while others appear to arise due to fixed points that have been claimed to exist in resummations of perturbative beta functions.

TY  - JOUR
PB  - SciPost Foundation
DO  - 10.21468/SciPostPhys.9.3.035
TI  - Analytic and numerical bootstrap of CFTs with $O(m)\times O(n)$ global symmetry in 3D
PY  - 2020/09/10
UR  - https://scipost.org/SciPostPhys.9.3.035
JF  - SciPost Physics
JA  - SciPost Phys.
VL  - 9
IS  - 3
SP  - 035
A1  - Henriksson, Johan
AU  - Kousvos, Stefanos R.
AU  - Stergiou, Andreas
AB  - Motivated by applications to critical phenomena and open theoretical questions, we study conformal field theories with $O(m)\times O(n)$ global symmetry in $d=3$ spacetime dimensions. We use both analytic and numerical bootstrap techniques. Using the analytic bootstrap, we calculate anomalous dimensions and OPE coefficients as power series in $\varepsilon=4-d$ and in $1/n$, with a method that generalizes to arbitrary global symmetry. Whenever comparison is possible, our results agree with earlier results obtained with diagrammatic methods in the literature. Using the numerical bootstrap, we obtain a wide variety of operator dimension bounds, and we find several islands (isolated allowed regions) in parameter space for $O(2)\times O(n)$ theories for various values of $n$. Some of these islands can be attributed to fixed points predicted by perturbative methods like the $\varepsilon$ and large-$n$ expansions, while others appear to arise due to fixed points that have been claimed to exist in resummations of perturbative beta functions.
ER  -

@Article{10.21468/SciPostPhys.9.3.035,
	title={{Analytic and numerical bootstrap of CFTs with $O(m)\times O(n)$ global symmetry in 3D}},
	author={Johan Henriksson and Stefanos R. Kousvos and Andreas Stergiou},
	journal={SciPost Phys.},
	volume={9},
	pages={035},
	year={2020},
	publisher={SciPost},
	doi={10.21468/SciPostPhys.9.3.035},
	url={https://scipost.org/10.21468/SciPostPhys.9.3.035},
}

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Ontology / Topics

See full Ontology or Topics database.

Conformal bootstrap Conformal field theory (CFT) Global symmetries

Authors / Affiliations: mappings to Contributors and Organizations

See all Organizations.

¹ Johan Henriksson,
² Stefanos R. Kousvos,
³ Andreas Stergiou

Funders for the research work leading to this publication

CERN (through Organization: Organisation européenne pour la recherche nucléaire / European Organization for Nuclear Research [CERN])
Gouvernement du Canada / Government of Canada
Hellenic Foundation for Research and Innovation [HFRI]
Los Alamos National Laboratory [LANL]
Ministry of Research and Innovation (Canada, Ontario, Min Res&Innov) (through Organization: Ministry of Research, Innovation and Science - Ontario [MRIS])
Simons Foundation
United States Department of Energy [DOE]