English

One Loop Back Reaction On Chaotic Inflation

Astrophysics 2016-08-25 v1 General Relativity and Quantum Cosmology High Energy Physics - Phenomenology

Abstract

We extend, for the case of a general scalar potential, the inflaton-graviton Feynman rules recently developed by Iliopoulos {\it et al.} As an application we compute the leading term, for late co-moving times, of the one loop back reaction on the expansion rate for V(ϕ)=12m2ϕ2V(\phi) = \frac12 m^2 \phi^2. This is expressed as the logarithmic time derivative of the scale factor in the coordinate system for which the expectation value of the metric has the form: <0gμν(tˉ,x)0>dxμdxν=dtˉ2+a2(tˉ)dxdx<0 | g_{\mu\nu}({\bar t},{\vec x}) | 0 > dx^{\mu} dx^{\nu} = - d{\bar t}^2 + a^2({\bar t}) d{\vec x} \cdot d{\vec x}. This quantity should be a gauge independent observable. Our result for it agrees exactly with that inferred from the effect previously computed by Mukhanov {\it et al.} using canonical quantization. It is significant that the two calculations were made with completely different schemes for fixing the gauge, and that our computation was done using the standard formalism of covariant quantization. This should settle some of the issues recently raised by Unruh.

Keywords

Cite

@article{arxiv.astro-ph/9811430,
  title  = {One Loop Back Reaction On Chaotic Inflation},
  author = {L. R. Abramo and R. P. Woodard},
  journal= {arXiv preprint arXiv:astro-ph/9811430},
  year   = {2016}
}

Comments

41 pages, LaTeX 2 epsilon