Anh-Khoi Trinh scite author profile

We study correlators of four protected (half-BPS) operators in strongly coupled supersymmetric Yang-Mills theory. These are dual to tree-level supergravity amplitudes on AdS 5 ×S 5 for various spherical harmonics on the five-sphere. We use conformal field theory methods, in particular a recently obtained Lorentzian inversion formula, to analytically bootstrap these correlators. The extracted 1/N 2 double-trace anomalous dimensions confirm a simple pattern recently conjectured by Aprile, Drummond, Heslop and Paul. We explain this pattern by an unexpected ten-dimensional conformal symmetry which appears to be enjoyed by tree-level supergravity (or a suitable subsector of it). The symmetry combines all spherical harmonics into a single ten-dimensional object, and yields compact expressions for the leading logarithmic part of any half-BPS correlator at each loop order. arXiv:1809.09173v1 [hep-th] 24 Sep 2018A Basic inversion integrals 37 B Superconformal blocks, and weak coupling correlator to order 1/c 38 B.1 Weak coupling limit 39 C Ten-dimensional conformal blocks at the unitarity bound 40

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Mixed correlator dispersive CFT sum rules

Trinh

2022

J. High Energ. Phys.

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Conformal field theory (CFT) dispersion relations reconstruct correlators in terms of their double discontinuity. When applied to the crossing equation, such dispersive transforms lead to sum rules that suppress the double-twist sector of the spectrum and enjoy positivity properties at large twist. In this paper, we construct dispersive CFT functionals for correlators of unequal scalar operators in position- and Mellin-space. We then evaluate these functionals in the Regge limit to construct mixed correlator holographic CFT functionals which probe scalar particle scattering in Anti-de Sitter spacetime. Finally, we test properties of these dispersive sum rules when applied to the 3D Ising model, and we use truncated sum rules to find approximate solutions to the crossing equation.

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Non-Kahler Deformed Conifold, Ultra-Violet Completion and Supersymmetric Constraints in the Baryonic Branch

Dasgupta¹,

Elituv²,

Emelin³

et al. 2018

Preprint

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Gravity duals for a class of UV complete minimally supersymmetric non-conformal gauge theories require deformed conifolds with fluxes. However these manifolds do not allow for the standard Kähler or conformally Kähler metrics on them, instead the metrics are fully non-Kähler. We take a generic such configuration of a non-Kähler deformed conifold with fluxes and ask what constraints do supersymmetry impose in the Baryonic branch. We study the supersymmetry conditions and show that for the correct choices of the vielbeins and the complex structure all the equations may be consistently solved. The constraints now lead not only to the known cases in the literature but also to some new backgrounds. We also show how geometric features of these backgrounds, including the overall warp factor and the resolution parameters, can be seen on the field theory side from perturbative "probe-brane" type calculations by Higgsing the theory and studying one-loop 4-point functions of vector and chiral multiplets. Finally we discuss how UV completions of these gauge theories may be seen from our set-up, both from type IIB as well as from the T-dual type IIA brane constructions.

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Bootstrapping $\mathcal{N}=4$ sYM correlators using integrability

Caron-Huot¹,

Coronado²,

Trinh³

et al. 2022

Preprint

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How much spectral information is needed to determine the correlation functions of a conformal theory? We study this question in the context of planar supersymmetric Yang-Mills theory, where integrability techniques accurately determine the single-trace spectrum at finite 't Hooft coupling. Corresponding OPE coefficients are constrained by dispersive sum rules, which implement crossing symmetry. Focusing on correlators of four stress-tensor multiplets, we construct combinations of sum rules which determine one-loop correlators, and we study a numerical bootstrap problem that nonperturbatively bounds planar OPE coefficients. We observe interesting cusps at the location of physical operators, and we obtain a nontrivial upper bound on the OPE coefficient of the Konishi operator outside the perturbative regime.

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Bootstrapping $$ \mathcal{N} $$ = 4 sYM correlators using integrability

Caron-Huot

Coronado

Trinh

et al. 2023

J. High Energ. Phys.

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How much spectral information is needed to determine the correlation functions of a conformal theory? We study this question in the context of planar supersymmetric Yang-Mills theory, where integrability techniques accurately determine the single-trace spectrum at finite ’t Hooft coupling. Corresponding OPE coefficients are constrained by dispersive sum rules, which implement crossing symmetry. Focusing on correlators of four stress-tensor multiplets, we construct combinations of sum rules which determine one-loop correlators, and we study a numerical bootstrap problem that nonperturbatively bounds planar OPE coefficients. We observe interesting cusps at the location of physical operators, and we obtain a nontrivial upper bound on the OPE coefficient of the Konishi operator outside the perturbative regime.

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Anh-Khoi Trinh

All tree-level correlators in AdS5×S5 supergravity: hidden ten-dimensional conformal symmetry

Mixed correlator dispersive CFT sum rules

Non-Kahler Deformed Conifold, Ultra-Violet Completion and Supersymmetric Constraints in the Baryonic Branch

Bootstrapping $\mathcal{N}=4$ sYM correlators using integrability

Bootstrapping $$ \mathcal{N} $$ = 4 sYM correlators using integrability

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