Three-point functions at strong coupling in the BMN limit

Basso, Benjamin; Zhong, De-liang

doi:10.1007/jhep04(2020)076

Cited by 13 publications

(13 citation statements)

References 76 publications

(189 reference statements)

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“…The two factors giving the numerator of (54) in the RHS are both O(1/N 2 ) whereas the factor in the denominator is leading in large N, thus the RHS is O(1/N 4 ) as we stated already in (45). The formula (54) may be proven by simply using (51) on both sides and then using (53) and (52) on the RHS to cancel the denominator.…”

Section: Multiplet Recombinationmentioning

confidence: 76%

“…Future directions include a more detailed investigation of the Mellin space representation of our one-loop functions, which would extend the analysis of 2222 in [11], as well as the possibility of pushing our bootstrap program to two loops. It would be fascinating if the results we obtain in the large N expansion could be compared (possibly taking into account also the α ′ corrections) to the results based on integrable methods [50][51][52][53][54]. We also emphasise that our fresh new look at free N = 4 SYM, especially our understanding of single particle operators and generalised tree-level functions, suggests a different way to approach the mysterious six-dimensional (2, 0) theory, which has been recently studied from a holographic perspective in several papers [55][56][57][58].…”

Section: Discussionmentioning

confidence: 99%

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One-loop amplitudes in AdS5×S5 supergravity from $$ \mathcal{N} $$ = 4 SYM at strong coupling

Aprile

Drummond

Heslop

et al. 2020

J. High Energ. Phys.

171

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We explore the structure of maximally supersymmetric Yang-Mills correlators in the supergravity regime. We develop an algorithm to construct one-loop supergravity amplitudes of four arbitrary Kaluza-Klein supergravity states, properly dualised into single-particle operators. We illustrate this algorithm by constructing new explicit results for multi-channel correlation functions, and we show that correlators which are degenerate at tree level become distinguishable at one-loop. The algorithm contains a number of subtle features which have not appeared until now. In particular, we address the presence of non-trivial low twist protected operators in the OPE that are crucial for obtaining the correct oneloop results. Finally, we outline how the differential operators D pqrs and ∆ (8) , which play a role in the context of the hidden 10d conformal symmetry at tree level, can be used to reorganise our one-loop correlators.

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Section: Multiplet Recombinationmentioning

confidence: 76%

Section: Discussionmentioning

confidence: 99%

One-loop amplitudes in AdS5×S5 supergravity from $$ \mathcal{N} $$ = 4 SYM at strong coupling

Aprile

Drummond

Heslop

et al. 2020

J. High Energ. Phys.

171

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show abstract

“…Unfortunately, the WKB expansion turned out to be less powerful here and will not fix the ambiguity completely. Instead, we need to carefully discuss the analytic properties of the Wronskians in order to determine the CDD ambiguity 21 . This was for instance demonstrated in [4].…”

Section: Functional Equation For the Wronskianmentioning

confidence: 99%

“…The former pole crosses the contour from the inside to the outside while the latter pole crosses the contour from the outside to the inside. 21 Note that in general the multiplication of the CDD-like factors will modify the analytic property of the Wronskians (as a function of the spectral parameter). Therefore, if one can determine the analytic property of the Wronskian by some other means, one will be able to fix the CDD ambiguities.…”

Section: Functional Equation For the Wronskianmentioning

confidence: 99%

“…Recently, part of the classical string result was rederived from the non-perturbative approach called the hexagon formalism in[19] 24. It was recently shown that functions with similar properties can be obtained from the hexagon formalism at strong coupling[21] 25 In[22], they also introduced the twistorial generalization of the DOZZ formula. This is closely related to our final formula (111).…”

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confidence: 99%

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Liouville theory, AdS₂ string, and three-point functions

Komatsu

2020

J. Phys. A: Math. Theor.

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This is a write-up of the lectures given in Young Researchers Integrability School 2017. The main goal is to explain the connection between the ODE/IM correspondence and the classical integrability of strings in AdS. As a warm up, we first discuss the classical threepoint function of the Liouville theory. The starting point is the well-known fact that the classical solutions to the Liouville equation can be constructed by solving a Schrödingerlike differential equation. We then convert it into a set of functional equations using a method similar to the ODE/IM correspondence. The classical three-point functions can be computed directly from these functional equations, and the result matches with the classical limit of the celebrated DOZZ formula. We then discuss the semi-classical threepoint function of strings in AdS 2 and show that one can apply a similar idea by making use of the classical integrability of the string sigma model on AdS 2 . The result is given in terms of the "massive" generalization of Gamma functions, which show up also in string theory on pp-wave backgrounds and the twistorial generalization of topological string.

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Ten dimensional symmetry of $$ \mathcal{N} $$ = 4 SYM correlators

Caron-Huot

Coronado

2022

J. High Energ. Phys.

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We consider four-point correlation functions of protected single-trace scalar operators in planar $$ \mathcal{N} $$ N = 4 supersymmetric Yang-Mills (SYM). We conjecture that all loop corrections derive from an integrand which enjoys a ten-dimensional symmetry. This symmetry combines spacetime and R-charge transformations. By considering a 10D light-like limit, we extend the correlator/amplitude duality by equating large R-charge octagons with Coulomb branch scattering amplitudes. Using results from integrability, this predicts new finite amplitudes as well as some Feynman integrals.

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Three-point functions at strong coupling in the BMN limit

Cited by 13 publications

References 76 publications

One-loop amplitudes in AdS5×S5 supergravity from $$ \mathcal{N} $$ = 4 SYM at strong coupling

One-loop amplitudes in AdS5×S5 supergravity from $$ \mathcal{N} $$ = 4 SYM at strong coupling

Liouville theory, AdS₂ string, and three-point functions

Ten dimensional symmetry of $$ \mathcal{N} $$ = 4 SYM correlators

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Three-point functions at strong coupling in the BMN limit

Cited by 13 publications

References 76 publications

One-loop amplitudes in AdS5×S5 supergravity from $$ \mathcal{N} $$ = 4 SYM at strong coupling

One-loop amplitudes in AdS5×S5 supergravity from $$ \mathcal{N} $$ = 4 SYM at strong coupling

Liouville theory, AdS2 string, and three-point functions

Ten dimensional symmetry of $$ \mathcal{N} $$ = 4 SYM correlators

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Liouville theory, AdS₂ string, and three-point functions