Friday, May 3, 2013

1305.0525 (John McDonald)

Isocurvature and Curvaton Perturbations with Red Power Spectrum and
Large Hemispherical Asymmetry
   [PDF]

John McDonald
We calculate the power spectrum and hemispherical asymmetry of isocurvature and curvaton perturbations due to a complex field \Phi which is evolving along the tachyonic part of its potential. Using a semi-classical evolution of initially sub-horizon quantum fluctuations, we compute the power spectrum, mean field and hemispherical asymmetry as a function of the number of e-foldings of tachyonic growth \Delta N and the tachyonic mass term cH^2. We find that a large hemispherical asymmetry due to the modulation of |\Phi| can easily be generated via the spatial modulation of |\Phi| across the horizon, with Delta |\Phi|/|\Phi| > 0.5 when the observed Universe exits the horizon within 10-40 e-foldings of the beginning of tachyonic evolution and c is in the range 0.1-1. The spectral index of the isocurvature and curvaton perturbations is generally negative, corresponding to a red power spectrum. Dark matter isocurvature perturbations due to an axion-like curvaton with a large hemispherical asymmetry may be able to explain the hemispherical asymmetry observed by WMAP and Planck. In this case, the red spectrum can additionally suppress the hemispherical asymmetry at small scales, which should make it easier to satisfy scale-dependence requirements on the asymmetry from quasar number counts.
View original: http://arxiv.org/abs/1305.0525

No comments:

Post a Comment