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Pyrotechnic Universe

High Energy Physics - Theory 2009-09-29 v3 Astrophysics General Relativity and Quantum Cosmology High Energy Physics - Phenomenology

Abstract

One of the central points of the ekpyrotic cosmological scenario based on Horava-Witten theory is that we live on a negative tension brane. However, the tension of the visible brane is positive in the usual HW phenomenology with stronger coupling on the hidden brane, both for standard and non-standard embedding. To make ekpyrotic scenario realistic one must solve the problem of the negative cosmological constant on the visible brane and fine-tune the bulk brane potential with an accuracy of 105010^{-50}. In terms of a canonically normalized scalar field ϕ\phi describing the position of the brane, this potential must take a very unusual form V(ϕ)e5000ϕMpV(\phi)\sim e^{-{5000 \phi\over M_p}}. We describe the problems which appear when one attempts to obtain this potential in string theory. The mechanism for the generation of density perturbations in this scenario is not brane-specific; it is a particular limiting case of the mechanism of tachyonic preheating. Unlike inflation, this mechanism exponentially amplifies not only quantum fluctuations, but also initial inhomogeneities. As a result, to solve the homogeneity problem in this scenario, one would need the branes to be parallel to each other with an accuracy better than 106010^{-60} on a scale 103010^{30} times greater than the distance between the branes. Thus, at present, inflation remains the only robust mechanism that produces density perturbations with a flat spectrum and simultaneously solves all major cosmological problems.

Keywords

Cite

@article{arxiv.hep-th/0104073,
  title  = {Pyrotechnic Universe},
  author = {Renata Kallosh and Lev Kofman and Andrei Linde},
  journal= {arXiv preprint arXiv:hep-th/0104073},
  year   = {2009}
}

Comments

35 pages, 2 figs. The issue of the brane tension is clarified and a new Appendix explaining constraints on the parameters is added