Chaotic inflation, radiative corrections and precision cosmology
Abstract
We employ chaotic (phi^2 and phi^4) inflation to illustrate the important role radiative corrections can play during the inflationary phase. Yukawa interactions of phi, in particular, lead to corrections of the form -kappa phi^4 ln(phi/mu), where kappa>0 and mu is a renormalization scale. For instance, phi^4 chaotic inflation with radiative corrections looks compatible with the most recent WMAP (5 year) analysis, in sharp contrast to the tree level case. We obtain the 95% confidence limits 2.4x10^-14<~kappa<~5.7x10^-14, 0.931<~n_s<~0.958 and 0.038<~r<~0.205, where n_s and r respectively denote the scalar spectral index and scalar to tensor ratio. The limits for phi^2 inflation are kappa<~7.7x10^-15, 0.929<~n_s<~0.966 and 0.023<~r<~0.135. The next round of precision experiments should provide a more stringent test of realistic chaotic phi^2 and phi^4 inflation.
Cite
@article{arxiv.0806.2798,
title = {Chaotic inflation, radiative corrections and precision cosmology},
author = {V. Nefer Senoguz and Qaisar Shafi},
journal= {arXiv preprint arXiv:0806.2798},
year = {2008}
}
Comments
5 pages, 4 figures, 2 tables. v2: added comments and references. v3: changed title, published version