String Theory clues for the low-$\ell$ CMB ?
Abstract
"Brane Supersymmetry Breaking" is a peculiar string-scale mechanism that can unpair Bose and Fermi excitations in orientifold models. It results from the simultaneous presence, in the vacuum, of collections of D-branes and orientifolds that are not mutually BPS, and is closely tied to the scale of string excitations. It also leaves behind, for a mixing of dilaton and internal breathing mode, an exponential potential that is just too steep for a scalar to emerge from the initial singularity while descending it. As a result, in this class of models the scalar can generically bounce off the exponential wall, and this dynamics brings along, in the power spectrum, an infrared depression typically followed by a pre-inflationary peak. We elaborate on a possible link between this type of bounce and the low- end of the CMB angular power spectrum. For the first 32 multipoles, one can reach a 50 % reduction in with respect to the standard CDM setting.
Keywords
Cite
@article{arxiv.1411.6396,
title = {String Theory clues for the low-$\ell$ CMB ?},
author = {N. Kitazawa and A. Sagnotti},
journal= {arXiv preprint arXiv:1411.6396},
year = {2014}
}
Comments
15 pages, LaTeX, 30 eps figures. To appear in the Proceedings of ICNFP 2014. References added