813 research outputs found

    Effective action of (massive) IIA on manifolds with SU(3) structure

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    In this paper we consider compactifications of massive type IIA supergravity on manifolds with SU(3) structure. We derive the gravitino mass matrix of the effective four-dimensional N = 2 theory and show that vacuum expectation values of the scalar fields naturally induce spontaneous partial supersymmetry breaking. We go on to derive the superpotential and the Kaehler potential for the resulting N = 1 theories. As an example we consider the SU(3) structure manifold SU(3)/U(1)xU(1) and explicitly find N = 1 supersymmetric minima where all the moduli are stabilised at non-trivial values without the use of non-perturbative effects.Comment: 25 pages, 2 figures. References added and typos corrected to match published versio

    Non-Abelian black holes: The inside story

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    Recent progress in understanding of the internal structure of non-Abelian black holes is discussed. Talk given at the international Workshop on The Internal Structure of Black Holes and Spacetime Singularities, Haifa, Israel, June 29 -- July 3, 1997.Comment: 23 pages, latex, contains 12 eps files combined in 8 figure

    Monopoles and the Emergence of Black Hole Entropy

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    One of the remarkable features of black holes is that they possess a thermodynamic description, even though they do not appear to be statistical systems. We use self-gravitating magnetic monopole solutions as tools for understanding the emergence of this description as one goes from an ordinary spacetime to one containing a black hole. We describe how causally distinct regions emerge as a monopole solution develops a horizon. We define an entropy that is naturally associated with these regions and that has a clear connection with the Hawking-Bekenstein entropy in the critical black hole limit.Comment: 6 pages, one figure RevTe

    Features of gravity-Yang-Mills hierarchies in d-dimensions

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    Higher dimensional, direct analogues of the usual d=4 Einstein--Yang-Mills (EYM) systems are studied. These consist of the gravitational and Yang-Mills hierarchies in d=4p dimensional spacetimes, both consisting of 2p-form curvature terms only. Regular and black hole solutions are constructed in 2p+2≀d≀4p2p+2\le d \le 4p, in which dimensions the total mass-energy is finite, generalising the familiar Bartnik-McKinnon solutions in EYM theory for p=1. In d=4p, this similarity is complete. In the special case of d=2p+1, just beyond the finite energy range of d, exact solutions in closed form are found. Finally, d=2p+1 purely gravitational systems, whose solutions generalise the static d=3 BTZ solutions, are discussed.Comment: 19 pages, 9 figure

    Static Cosmological Solutions of the Einstein-Yang-Mills-Higgs Equations

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    Numerical evidence is presented for the existence of a new family of static, globally regular `cosmological' solutions of the spherically symmetric Einstein-Yang-Mills-Higgs equations. These solutions are characterized by two natural numbers (m≄1m\geq 1, n≄0n\geq 0), the number of nodes of the Yang-Mills and Higgs field respectively. The corresponding spacetimes are static with spatially compact sections with 3-sphere topology.Comment: 7 pages, 5 figures, LaTe

    Static BPS 'monopoles' in all even spacetime dimensions

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    Two families of SO(2n) Higgs models in 2n2n dimensional spacetime are presented. One family arises from the {\it dimensional reduction} of higher dimensional Yang-Mills systems while the construction of the other one is {\it ad hoc}, the n=2n=2 member of each family coinciding with the usual SU(2) Yang-Mills--Higgs system without Higgs potential. All models support BPS 'monopole' solutions. The 'dyons' of the {\it dimensionally descended} models are also BPS, while the electrically charged solutions of the {\it ad hoc} models are not BPS.Comment: 15 pages, 3 figure

    Gravitating BPS Monopoles in all d=4p Spacetime Dimensions

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    We have constructed, numerically, both regular and black hole static solutions to the simplest possible gravitating Yang-Mills--Higgs (YMH) in 4p4p spacetime dimensions. The YMH systems consist of 2p−2p-th power curvature fields without a Higgs potential. The gravitational systems consist of the `Ricci scalar' of the p−p-th power of the Riemann curvature. In 4 spacetime dimensions this is the usual Einstein-YMH (EYMH) studied in \cite{Breitenlohner:1991aa, Breitenlohner:1994di}, whose qualitative results we emulate exactly.Comment: 31 pages, 9 figure

    Dynamics of Gravitating Magnetic Monopoles

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    According to previous work on magnetic monopoles, static regular solutions are nonexistent if the vacuum expectation value of the Higgs field η\eta is larger than a critical value ηcr\eta_{{\rm cr}}, which is of the order of the Planck mass. In order to understand the properties of monopoles for η>ηcr\eta>\eta_{{\rm cr}}, we investigate their dynamics numerically. If η\eta is large enough (≫ηcr\gg\eta_{{\rm cr}}), a monopole expands exponentially and a wormhole structure appears around it, regardless of coupling constants and initial configuration. If η\eta is around ηcr\eta_{{\rm cr}}, there are three types of solutions, depending on coupling constants and initial configuration: a monopole either expands as stated above, collapses into a black hole, or comes to take a stable configuration.Comment: 11 pages, revtex, postscript figures; results for various initial conditions are added; to appear in Phys. Rev.

    The final fate of instability of Reissner-Nordstr\"om-anti-de Sitter black holes by charged complex scalar fields

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    We investigate instability of 4-dimensional Reissner-Nordstr\"om-anti-de Sitter (RN-AdS4_4) black holes with various topologies by charged scalar field perturbations. We numerically find that the RN-AdS4_4 black holes become unstable against the linear perturbations below a critical temperature. It is analytically shown that charge extraction from the black holes occurs during the unstable evolution. To explore the end state of the instability, we perturbatively construct static black hole solutions with the scalar hair near the critical temperature. It is numerically found that the entropy of the hairly black hole is always larger than the one of the unstable RN-AdS4_4 black hole in the microcanonical ensemble. Our results support the speculation that the black hole with charged scalar hair always appears as the final fate of the instability of the RN-AdS4_4 black hole.Comment: 9 pages, 4 figures. To appear in PR
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