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arxiv: 0802.1067 · v2 · submitted 2008-02-07 · ✦ hep-th · astro-ph· gr-qc

The Phase Transition to Eternal Inflation

Paolo Creminelli (ICTP , Trieste) , Sergei Dubovsky (Harvard U. , Physics Dept. , Moscow , INR) , Alberto Nicolis (Columbia U.) , Leonardo Senatore (Harvard U.
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Physics Dept.) Matias Zaldarriaga (Harvard U. Harvard-Smithsonian Ctr. Astrophys.)
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classification ✦ hep-th astro-phgr-qc
keywords transitionvolumefiniteprobabilityreheatingdistributioneternalinfinite
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For slow-roll inflation we study the phase transition to the eternal regime. Starting from a finite inflationary volume, we consider the volume of the universe at reheating as order parameter. We show that there exists a critical value for the classical inflaton speed, \dot\phi^2/H^4 = 3/(2 \pi^2), where the probability distribution for the reheating volume undergoes a sharp transition. In particular, for sub-critical inflaton speeds all distribution moments become infinite. We show that at the same transition point the system develops a non-vanishing probability of having a strictly infinite reheating volume, while retaining a finite probability for finite values. Our analysis represents the exact quantum treatment of the system at lowest order in the slow-roll parameters and H^2/M_Pl^2.

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