Short Distance Physics and Initial State Effects on the CMB Power Spectrum
arXiv:0809.4312 · doi:10.1103/PhysRevD.78.123502
Abstract
We investigate a modification in the action of inflaton due to noncommutativity leads to a nonstandard initial vacuum and oscillatory corrections in the initial power spectrum. We show that the presence of these oscillations causes a drop in the WMAP $Ï^{2}$ about $ÎÏ^{2}\sim 8.5$. As a bonus, from the parameter estimation done in this work, we show that the noncommutative parameters can be precisely bound to $10^{16}$ GeV or $10^{4}$ GeV depending on the inflation scale.
29 pages, 5 figures, v2