Two dimensional $$ \mathcal{N} $$ = (0, 4) quivers dual to AdS3 solutions in massive IIA

Lozano, Yolanda; Macpherson, Niall T.; Núñez, Carlos; Ramirez, Anayeli

doi:10.1007/jhep01(2020)140

Cited by 71 publications

(237 citation statements)

References 109 publications

(117 reference statements)

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“…This strongly suggests that a similar description should be at play for the AdS 2 solution. As in similar examples in which non-Abelian T-duality has been applied to holography [83][84][85][86][87][88][89], the solution constructed through non-Abelian T-duality would not be describing the same physics as the type IIA seed solution, which would be consistent with the fact that non-Abelian T-duality has not been proved to be a string theory symmetry [90,91].…”

Section: Uplift To M-theorymentioning

confidence: 84%

Holographic description of M-branes via AdS2

Dibitetto

Lozano

Petri

et al. 2020

J. High Energ. Phys.

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We study AdS 2 × S 4 × S 2 × Σ 2 solutions in type IIB string theory arising from D1 -D3 -NS5 brane intersections. These backgrounds enjoy sixteen supercharges and the corresponding internal geometry is non-compact due to the specific form of the warping w.r.t. the Riemann surface Σ 2 . Even though a direct computation of the holographic free energy of the would-be dual CFT 1 yields a divergent behaviour, it reveals the typical N 3 scaling of a 6d theory upon introducing a hard cut-off. We claim that such geometries may be interpreted as the gravity duals of M(atrix) models describing an IR phase of the (2, 0) theory of M5 branes, in presence of momentum and NUT charges. We discuss parallel AdS 2 geometries describing longitudinal M2 branes in the UV, where the counting of the number of degrees of freedom correctly reproduces the expected N 3/2 behaviour of the dual field theory. These geometries provide explicit examples where deconstructed extra dimensions yield well-defined UV descriptions in terms of higher-dimensional CFTs.

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Section: Uplift To M-theorymentioning

confidence: 84%

Holographic description of M-branes via AdS2

Dibitetto

Lozano

Petri

et al. 2020

J. High Energ. Phys.

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“…Following [27], we will be interested in the case of a finite interval I ρ where bothĥ 4 and h 8 vanish at both ends of the interval. So, to start fixing conventions, let us set I ρ = [0, ρ * ] and h 4 (ρ) = h 8 (ρ) = 0, whenρ is equal to 0 and ρ * .…”

Section: Summary Of Class I Geometriesmentioning

confidence: 99%

“…So, to start fixing conventions, let us set I ρ = [0, ρ * ] and h 4 (ρ) = h 8 (ρ) = 0, whenρ is equal to 0 and ρ * . It is convenient [27] to set ρ * = 2π(P + 1), with P a large integer. On the other hand, u vanishes only at ρ = 0.…”

Section: Summary Of Class I Geometriesmentioning

confidence: 99%

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Spin 2 fluctuations in 1/4 BPS AdS3/CFT2

Speziali

2020

J. High Energ. Phys.

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In this paper we study spin 2 fluctuations around a warped AdS 3 × S 2 × T 4 × I ρ background in type IIA supergravity with small N = (0, 4) supersymmetry. We find a class of fluctuations, which will be called universal, that is independent of the background data and corresponds to operators with scaling dimension ∆ = 2l + 2, being l the angular-momentum-quantum-number on the S 2 which realises the SU (2) R symmetry. We compute the central charge for N = (0, 4) two-dimensional superconformal theories from the action of the spin 2 fluctuations.

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“…Exceptions to this trend include a classification of purely NS  = (2, 2) solutions in [25], large  = (4, 0) in Mtheory [26] and massive IIA, [36] and small  = (4, 0) in massive IIA. [27][28][29][30] These examples, while certainly of great merit, still only cover a small subset of possible superconfromal algebras -see [31] for a complete list that may be embedded into ten-and eleven-dimensional supergravity 1 . Rather less "vanilla" options, were presented in [33] where solutions with F(4) and G(3) supergroups were constructed.…”

Section: Introductionmentioning

confidence: 99%

AdS₃ solutions with from S³ × S³ fibrations

Legramandi

Macpherson

2020

Fortschritte der Physik

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We study warped AdS 3 solutions in massive IIA supergravity preserving  = (3, 0) and  = (1, 0) supersymmetry. We consider solutions whose internal spaces decompose as an S 3 ×S 3 fibration and a interval over which the rest of the solution is foliated. We present necessary and sufficient conditions for these solutions to exist, in terms of systems of ordinary differential equations and find several new analytic and numerical examples with internal spaces bounded between D-brane and O-plane behaviors.1 Interestingly [32] find  = (8, 0) solutions in 3d gauged supergravity that do not appear to be able to be embedded in 10 or 11 dimensionsso this may not be the full story.

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Two dimensional $$ \mathcal{N} $$ = (0, 4) quivers dual to AdS3 solutions in massive IIA

Cited by 71 publications

References 109 publications

Holographic description of M-branes via AdS2

Holographic description of M-branes via AdS2

Spin 2 fluctuations in 1/4 BPS AdS3/CFT2

AdS₃ solutions with from S³ × S³ fibrations

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Two dimensional $$ \mathcal{N} $$ = (0, 4) quivers dual to AdS3 solutions in massive IIA

Cited by 71 publications

References 109 publications

Holographic description of M-branes via AdS2

Holographic description of M-branes via AdS2

Spin 2 fluctuations in 1/4 BPS AdS3/CFT2

AdS3 solutions with from S3 × S3 fibrations

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Product

Resources

About

AdS₃ solutions with from S³ × S³ fibrations