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On CMB B-Mode Non-Gaussianity

arXiv:1603.02243 · doi:10.1103/PhysRevD.93.123511

Abstract

We study the degree to which the cosmic microwave background (CMB) can be used to constrain primordial non-Gaussianity involving one tensor and two scalar fluctuations, focusing on the correlation of one polarization $B$ mode with two temperature modes. In the simplest models of inflation, the tensor-scalar-scalar primordial bispectrum is non-vanishing and is of the same order in slow-roll parameters as the scalar-scalar-scalar bispectrum. We calculate the $\langle BTT\rangle$ correlation arising from a primordial tensor-scalar-scalar bispectrum, and show that constraints from an experiment like CMB-Stage IV using this observable are more than an order of magnitude better than those on the same primordial coupling obtained from temperature measurements alone. We argue that $B$-mode non-Gaussianity opens up an as-yet-unexplored window into the early Universe, demonstrating that significant information on primordial physics remains to be harvested from CMB anisotropies.

14 pages and 8 figures. Version prepared for submission to PRD. New: paragraph pointing out analogy with gravitational lensing, paragraph on squeezed limit, paragraph on normalization of fNL, new figure (7), updated figures based on improved sampling in \ell, typos, references