182 research outputs found

    Twin Supergravities

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    We study the phenomenon that pairs of supergravities can have identical bosonic field content but different fermionic extensions. Such twin theories are classified and shown to originate as truncations of a common theory with more supersymmetry. Moreover, we discuss the possible gaugings and scalar potentials of twin theories. This allows to pinpoint to which extent these structures are determined by the purely bosonic structure of the underlying Kac-Moody algebras and where supersymmetry comes to plays its role. As an example, we analyze the gaugings of the six-dimensional N=(0,1) and N=(2,1) theories with identical bosonic sector and explicitly work out their scalar potentials. The discrepancy between the potentials finds a natural explanation within maximal supergravity, in which both theories may be embedded.Comment: 27 pages. v2: ref added, published versio

    Universality Classes of Scale Invariant Inflation

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    We investigate the inflationary implications of extensions of Poincare symmetry. The simplest constructions with local scale invariance lead to universal predictions: the spectral index is ns=1−2/Nn_s = 1-2/N, in excellent agreement with Planck data, while the tensor-to-scalar ratio is determined by a free parameter to r=12α/N2r = 12 \alpha / N^2. For the special value α=1\alpha=1 one finds symmetry enhancement to the full conformal group. We show that these findings hold both for two-derivative scalar-tensor theories as well as higher-derivative gravity. Therefore scale invariance underlies a promising set of inflationary models.Comment: 6 pages, 1 figur

    General sGoldstino Inflation

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    We prove that all inflationary models, including those with dark energy after the end of inflation, can be embedded in minimal supergravity with a single chiral superfield. Moreover, the amount of supersymmetry breaking is independently tunable due to a degeneracy in the choice for the superpotential. The inflaton is a scalar partner of the Goldstino in this set-up. We illustrate our general procedure with two examples that are favoured by the Planck data.Comment: 6 pages, 6 figures; v2: refs added, published versio

    Cosmological Attractors from α\alpha-Scale Supergravity

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    The Planck value of the spectral index can be interpreted as ns=1−2/Nn_s = 1 - 2/N in terms of the number of e-foldings NN. An appealing explanation for this phenomenological observation is provided by α\alpha-attractors: the inflationary predictions of these supergravity models are fully determined by the curvature of the Kahler manifold. We provide a novel formulation of α\alpha-attractors which only involves a single chiral superfield. Our construction involves a natural deformation of no-scale models, and employs these to construct a De Sitter plateau with an exponential fall-off. Finally, we show how analogous structures with a flat Kahler geometry arise as a singular limit of such α\alpha-scale models.Comment: 6 pages, 3 figures. v3: minor clarifications and refs added. PRD versio

    Gaugings at angles from orientifold reductions

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    We consider orientifold reductions to N=4 gauged supergravity in four dimensions. A special feature of this theory is that different factors of the gauge group can have relative angles with respect to the electro-magnetic SL(2) symmetry. These are crucial for moduli stabilisation and De Sitter vacua. We show how such gaugings at angles generically arise in orientifold reductions.Comment: 15 pages. v4: refs added, minor improvements, published versio

    M-theory and gauged supergravities

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    The special Galileon as Goldstone of diffeomorphisms

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    The special Galileon stands out amongst scalar field theories due to its soft limits, non-linear symmetries and scattering amplitudes. This prompts the question what the origin of its underlying symmetry is. We show that it is intimately connected to general relativity: the special Galileon is the Goldstone mode of the affine group, consisting of linear coordinate transformations, analogous to the dilaton for conformal symmetries. We construct the corresponding metric, and discuss various relations to gravity, Yang-Mills and the non-linear sigma-model.Comment: 6 pages; v2: ref added, published versio

    Galileons as the Scalar Analogue of General Relativity

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    We establish a correspondence between general relativity with diffeomorphism invariance and scalar field theories with Galilean invariance: notions such as the Levi-Civita connection and the Riemann tensor have a Galilean counterpart. This suggests Galilean theories as the unique nontrivial alternative to gauge theories (including general relativity). Moreover, it is shown that the requirement of first-order Palatini formalism uniquely determines the Galileon models with second-order field equations, similar to the Lovelock gravity theories. Possible extensions are discussed.Comment: 6 pages, v2: Version appeared in Phys. Rev.

    Lobotomy of Flux Compactifications

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    We provide the dictionary between four-dimensional gauged supergravity and type II compactifications on T6\mathbb{T}^6 with metric and gauge fluxes in the absence of supersymmetry breaking sources, such as branes and orientifold planes. Secondly, we prove that there is a unique isotropic compactification allowing for critical points. It corresponds to a type IIA background given by a product of two 3-tori with SO(3) twists and results in a unique theory (gauging) with a non-semisimple gauge algebra. Besides the known four AdS solutions surviving the orientifold projection to N=4\mathcal{N}=4 induced by O6-planes, this theory contains a novel AdS solution that requires non-trivial orientifold-odd fluxes, hence being a genuine critical point of the N=8\mathcal{N}=8 theory.Comment: 44 pages (33 pages + appendices), 13 tables, 3 figure
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