Cosmology of a brane radiating gravitons into the extra dimension

Abstract

We study in a self-consistent way the impact of the emission of bulk gravitons on the (homogeneous) cosmology of a three-brane embedded in a five-dimensional spacetime. In the low energy regime, we recover the well known result that the bulk affects the Friedmann equation only via a radiation-like term /a4, called dark or Weyl radiation. By contrast, in the high energy regime, we find that the Weyl parameter is no longer constant but instead grows very rapidly as a4. As a consequence, the value of today is not a free parameter as usually considered but is a fixed number, which, generically, depends only on the number of relativistic degrees of freedom at the high/low energy transition. Our estimated amount of Weyl radiation satisfies the present nucleosynthesis bounds.

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