B-modes and the nature of inflation
Journal
Journal of Cosmology and Astroparticle Physics
Journal Volume
2015
Journal Issue
1
Date Issued
2015-01-01
Author(s)
Abstract
Observations of the cosmic microwave background do not yet determine whether inflation was driven by a slowly-rolling scalar field or involved another physical mechanism. In this paper we discuss the prospects of using the power spectra of scalar and tensor modes to probe the nature of inflation. We focus on the leading modification to the slow-roll dynamics, which entails a sound speed cs for the scalar fluctuations. We derive analytically a lower bound on cs in terms of a given tensor-to-scalar ratio r, taking into account the difference in the freeze-out times between the scalar and tensor modes. We find that any detection of primordial B-modes with r > 0.01 implies a lower bound on cs that is stronger than the bound derived from the absence of non-Gaussianity in the Planck data. For r 0.1, the bound would be tantalizingly close to a critical value for the sound speed, (cs)∗; = 0.47 (corresponding to (fNLequil)∗ = -0.93), which we show serves as a threshold for non-trivial dynamics beyond slow-roll. We also discuss how an order-one level of equilateral non-Gaussianity is a natural observational target for other extensions of the canonical paradigm.
Subjects
gravitational waves and CMBR polarization | ination
Type
journal article