4.7 Article

Signatures of short distance physics in the cosmic microwave background

Journal

PHYSICAL REVIEW D
Volume 66, Issue 12, Pages -

Publisher

AMER PHYSICAL SOC
DOI: 10.1103/PhysRevD.66.123510

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We systematically investigate the effect of short distance physics on the spectrum of temperature anisotropies in the cosmic microwave background produced during inflation. We present a general argument-assuming only low-energy locality-that the size of such effects is of order H-2/M-2, where H is the Hubble parameter during inflation and M is the scale of the high-energy physics. We evaluate the strength of such effects in a number of specific string and M theory models. In weakly coupled field theory and string theory models, the effects are far too small to be observed. In phenomenologically attractive Horava-Witten compactifications, the effects are much larger but still unobservable. In certain M theory models, for which the fundamental Planck scale is several orders of magnitude below the conventional scale of grand unification, the effects may be on the threshold of detectability. However, observations of both the scalar and tensor fluctuation contributions to the cosmic microwave background power spectrum-with a precision near the cosmic variance limit-are necessary in order to demonstrate unambiguously the existence of these signatures of high-energy physics. This is a formidable experimental challenge.

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