Flowing from AdS5 to AdS3 with T 1,1

Donos, Aristomenis; Gauntlett, Jerome P.

doi:10.1007/jhep08(2014)006

Cited by 21 publications

(50 citation statements)

References 52 publications

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“…It is worth noting that a single Hopf-fibre T-duality also results in the same supersymmetry breaking, although one can consider a linear combination of the Hopf-fibres, which preserves additional supersymmetries [72]. 16 This final observation that angular dependence gets projected out presents us with a small puzzle.…”

Section: Jhep08(2015)121mentioning

confidence: 95%

New AdS3 × S2 T-duals with N = 0 4 $$ \mathcal{N}=\left(0,4\right) $$ supersymmetry

Lozano

Macpherson

Montero

et al. 2015

J. High Energ. Phys.

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It is well known that Hopf-fibre T-duality and uplift takes the D1-D5 nearhorizon into a class of AdS 3 × S 2 geometries in 11D where the internal space is a CalabiYau three-fold. Moreover, supersymmetry dictates that Calabi-Yau is the only permissible SU(3)-structure manifold. Generalising this duality chain to non-Abelian isometries, a strong parallel exists, resulting in the first explicit example of a class of AdS 3 ×S 2 geometries with SU(2)-structure. Furthermore, the non-Abelian T-dual of AdS 3 ×S 3 ×S 3 ×S 1 results in a new supersymmetric AdS 3 × S 2 geometry, which falls outside of all known classifications. We explore the basic properties of the holographic duals associated to the new backgrounds. We compute the central charges and show that they are compatible with a large N = 4 superconformal algebra in the infra-red.

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Section: Jhep08(2015)121mentioning

confidence: 95%

New AdS3 × S2 T-duals with N = 0 4 $$ \mathcal{N}=\left(0,4\right) $$ supersymmetry

Lozano

Macpherson

Montero

et al. 2015

J. High Energ. Phys.

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“…Finding an explicit gravitational flow usually requires the knowledge of the full 10 dimensional geometry. A rich variety of examples has been worked out in the literature, see for example [2][3][4][5][6][7][8][9][10][11][12][13][14][15]. For classifications of AdS 3 solutions with uplift in 10d and 11d see [16] and [17].…”

Section: Jhep07(2017)040mentioning

confidence: 99%

“…9 If a I = −κ and for generic a I , supersymmetry is broken to N = (0, 2) [8]. The 2d R-current T R is a linear combination of the three abelian symmetries T (2d) R = I T I , where the constraint I = 2 has to be enforced.…”

Section: Jhep07(2017)040mentioning

confidence: 99%

Betti multiplets, flows across dimensions and c-extremization

Amariti

Toldo

2017

J. High Energ. Phys.

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Abstract:We consider 4d N = 1 SCFTs, topologically twisted on compact constant curvature Riemann surfaces, giving rise to 2d N = (0, 2) SCFTs. The exact R-current of these 2d SCFT extremizes the central charge c 2d , similarly to the 4d picture, where the exact R-current maximizes the central charge a 4d . There are global currents that do not mix with the R-current in 4d but their mixing becomes non trivial in 2d. In this paper we study the holographic dual of this process by analyzing a 5d N = 2 truncation of T 1,1 with one Betti vector multiplet, dual to the baryonic current on the CFT side. The holographic realization of the flow across dimensions connects AdS 5 to AdS 3 vacua in the supergravity picture. We verify the existence of the flow to AdS 3 solutions and we retrieve the field theory results for the mixing of the Betti vector with the graviphoton. Moreover, we extract the central charge from the Brown-Henneaux formula, matching with the results obtained in field theory. We develop a general formalism to obtain the central charge of a 2d SCFT from 5d N = 2 gauged supergravity with a generic number of vector multiplets, showing that its extremization corresponds to an attractor mechanism for the scalars in the supergravity picture.

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“…In a recent paper [20], the authors considered the construction of a supersymmetric domain wall that approaches AdS 5 × T 1,1 in the UV limit, and AdS 3 × R 2 × S 2 × S 3 in the IR limit. In this section we consider the non-abelian T-dual solution of the domain wall ansatz and see that it has as its limit the non-abelian T-dual of the AdS 5 ×T 1,1 and AdS 3 ×R 2 ×S 2 ×S 3 in the UV and IR respectively.…”

Section: Nonabelian T-dual Modelmentioning

confidence: 99%

“…The study of non-abelian T-duality of AdS backgrounds was initiated in [11,19] In this article we explore the non-abelian T-duality on the type IIA supergravity solution (that is, before the abelian T-duality which gives AdS 5 ×X 5 ) of the form AdS 5 × w M 5 , where the internal manifold is obtained after a dimensional reduction of a space that consists of a 2-sphere bundle over S 2 × T 2 [18]. Another application considered relates to the background found in [20]. It consists of a domain wall with non trivial fluxes in the NS-NS and RR sectors.…”

Section: Introductionmentioning

confidence: 99%

N=1SUSY backgrounds with anAdSfactor from non-AbelianTduality

Araujo

Năstase

2015

Phys. Rev. D

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Abstract:We consider the action of a non-abelian T-duality on backgrounds with an AdS 5 factor in type IIA supergravity, finding a new type IIB background, as well as the non-abelian T-dual of a domain wall solution which has as limits the non-abelian T-dual of AdS 5 × T 1,1 and the non-abelian T-dual of AdS 3 × R 2 × S 2 × S 3 . We explore some consequences of non-abelian T-duality for the dual conformal field theories.

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Flowing from AdS5 to AdS3 with T 1,1

Cited by 21 publications

References 52 publications

New AdS3 × S2 T-duals with N = 0 4 $$ \mathcal{N}=\left(0,4\right) $$ supersymmetry

New AdS3 × S2 T-duals with N = 0 4 $$ \mathcal{N}=\left(0,4\right) $$ supersymmetry

Betti multiplets, flows across dimensions and c-extremization

N=1SUSY backgrounds with anAdSfactor from non-AbelianTduality

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