Journal article

Stability analysis of 5D gravitational solutions with N bulk scalar fields

T Gherghetta, M Peloso

Physical Review D Particles Fields Gravitation and Cosmology | AMER PHYSICAL SOC | Published : 2011

Abstract

We study the stability of 5D gravitational solutions containing an arbitrary number of scalar fields. A closed set of equations is derived which governs the background and perturbations of N scalar fields and the metric, for arbitrary bulk and boundary scalar potentials. In particular the effect of the energy-momentum tensor of the scalar fields on the geometry is fully taken into account, together with all the perturbations of the system. The equations are explicitly written as an eigenvalue problem, which can be readily solved to determine the stability of the system and obtain the properties of the fluctuations, such as masses and couplings. As an example, we study a dynamical soft-wall m..

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University of Melbourne Researchers

Grants

Awarded by DOE, University of Minnesota


Funding Acknowledgements

The work of T. G. is supported by the Australian Research Council. T. G. also thanks the SITP at Stanford for support and hospitality during the completion of this work. The work of M. P. was supported in part by DOE Grant No. DE-FG02-94ER-40823 at the University of Minnesota.