Weiling Wen scite author profile

We extend the construction of bubbling 1/2 BPS solutions of Lin, Lunin and Maldacena (hep-th/0409174) in two directions. First we enquire whether bubbling 1/2 BPS solutions can be constructed in minimal 6d supergravity and second we construct solutions that are 1/4 BPS in type IIB. We find that the S 1 × S 1 bosonic reduction of (1,0) 6d supergravity to 4d gravity coupled to 2 scalars and a gauge field is consistent only provided that the gauge field obeys a constraint (F ∧ F = 0). This is to be contrasted to the case of the S 3 × S 3 bosonic reduction of type IIB supergravity to 4d gravity, 2 scalars and a gauge field, where consistency is achieved without imposing any such constraints. Therefore, in the case of (1,0) 6d supergravity we are able to construct 1/2 BPS solutions, similar to those derived in type IIB, provided that this additional constraint is satisfied. This ultimately prohibits the construction of a family of 1/2 BPS solutions corresponding to a bubbling AdS 3 × S 3 geometry. Returning to type IIB solutions, by turning on an axion-dilaton field we construct a family of bubbling 1/4 BPS solutions. This corresponds to the inclusion of back-reacted D7 branes to the solutions of Lin, Lunin and Maldacena.

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Generalized holonomy of M-theory vacua

Batrachenko

Duff

Liu

et al. 2005

Nuclear Physics B

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The number of M-theory vacuum supersymmetries, 0 <= n <= 32, is given by the number of singlets appearing in the decomposition of the 32 of SL(32,R) under H \subset SL(32,R) where H is the holonomy group of the generalized connection which incorporates non-vanishing 4-form. Here we compute this generalized holonomy for the n=16 examples of the M2-brane, M5-brane, M-wave, M-monopole, for a variety of their n=8 intersections and also for the n>16 pp waves.Comment: 24 pages, LaTe

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Generalized holonomy of supergravities with 8 real supercharges

Batrachenko

Wen

2004

Nuclear Physics B

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Generalized Holonomy in M-Theory

Batrachenko

Duff

Liu

et al. 2006

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Higher order integrability in generalized holonomy

et al. 2007

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Supersymmetric backgrounds in M-theory often involve four-form flux in addition to pure geometry. In such cases, the classification of supersymmetric vacua involves the notion of generalized holonomy taking values in SL(32, R), the Clifford group for eleven-dimensional spinors. Although previous investigations of generalized holonomy have focused on the curvature R M N (Ω) of the generalized SL(32, R) connection Ω M , we demonstrate that this local information is incomplete, and that satisfying the higher order integrability conditions is an essential feature of generalized holonomy. We also show that, while this result differs from the case of ordinary Riemannian holonomy, it is nevertheless compatible with the Ambrose-Singer holonomy theorem.

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Weiling Wen

Bubbling 1/4 BPS solutions in type IIB and supergravity reductions on

Generalized holonomy of M-theory vacua

Generalized holonomy of supergravities with 8 real supercharges

Generalized Holonomy in M-Theory

Higher order integrability in generalized holonomy

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