Path Integral for Inflationary Perturbations
Abstract
The quantum theory of cosmological perturbations in single field inflation is formulated in terms of a path integral. Starting from a canonical formulation, we show how the free propagators can be obtained from the well known gauge-invariant quadratic action for scalar and tensor perturbations, and determine the interactions to arbitrary order. This approach does not require the explicit solution of the energy and momentum constraints, a novel feature which simplifies the determination of the interaction vertices. The constraints and the necessary imposition of gauge conditions is reflected in the appearance of various commuting and anti-commuting auxiliary fields in the action. These auxiliary fields are not propagating physical degrees of freedom but need to be included in internal lines and loops in a diagrammatic expansion. To illustrate the formalism we discuss the tree-level 3-point and 4-point functions of the inflaton perturbations, reproducing the results already obtained by the methods used in the current literature. Loop calculations are left for future work.
Cite
@article{arxiv.1004.0882,
title = {Path Integral for Inflationary Perturbations},
author = {Tomislav Prokopec and Gerasimos Rigopoulos},
journal= {arXiv preprint arXiv:1004.0882},
year = {2010}
}
Comments
(v1) 28 pages, no figures; (v2) 29 pages, minor changes, matches published version