Variation of G, (4) and Vacuum Energy From Brane-World Models

Abstract

In brane-world theory in five dimensions, the bulk metric is usually written in gaussian coordinates, where g4μ = 0 and g44 = - 1. However, the choice g44 = - 1 is an external condition, not a requirement of the field equations. In this paper we study the consequences of having g44 = ε 2, where ε = 1 and is a scalar function varying with time, ≠ 0. This varying field entails the possibility of variable fundamental physical "constants". These variations are different from those predicted in scalar-tensor and multidimensional theories. We solve the five-dimensional equations for a fixed brane and use the brane-world paradigm to determine the fundamental parameters in the theory, which are the vacuum energy σ, the gravitational coupling G and the cosmological term (4). We present specific models where these physical quantities are variable functions of time. Different scenarios are possible but we discuss with some detail a model for which G/G H and (4) H2, which seems to be favored by observations. Our results are not in contradiction to previous ones in the literature. In particular, to those where the brane is described as a domain wall moving in a static Sch-AdS bulk. Indeed these latter models in RS scenarios describe the same spacetime as other solutions (with fixed brane) in gaussian coordinates with = 0 . We conclude that the introduction of a time-varying in brane-world theory yields a number of models that show variation in the fundamental physical "constants" and exhibit reasonable physical properties.

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