Large Scale Structure and Supersymmetric Inflation without Fine Tuning

Abstract

We explore constraints on the spectral index n of density fluctuations and the neutrino energy density fraction HDM, employing data from a variety of large scale observations. The best fits occur for n≈ 1 and HDM ≈ 0.15 - 0.30, over a range of Hubble constants 40-60 km s-1 Mpc-1. We present a new class of inflationary models based on realistic supersymmetric grand unified theories which do not have the usual `fine tuning' problems. The amplitude of primordial density fluctuations, in particular, is found to be proportional to (MX /MP)2, where MX (MP) denote the GUT (Planck) scale, which is reminiscent of cosmic strings! The spectral index n = 0.98, in excellent agreement with the observations provided the dark matter is a mixture of `cold' and `hot' components.

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