TL;DR
This paper demonstrates that quantum fluctuations in a scalar field can induce a transition from a near-zero universe to an inflationary phase, acting as a stochastic mechanism comparable to quantum tunneling.
Contribution
It introduces a model where quantum back-reaction stochasticity drives inflation, highlighting a novel quantum fluctuation-induced transition mechanism in cosmology.
Findings
Quantum back-reaction can induce inflationary expansion.
Transition probability is comparable to quantum tunneling.
Stochastic effects from quantum fluctuations are significant in early universe dynamics.
Abstract
We consider a closed Friedmann-Robertson-Walker Universe driven by the back reaction from a massless, non-conformally coupled quantum scalar field. We show that the back-reaction of the quantum field is able to drive the cosmological scale factor over the barrier of the classical potential so that if the universe starts near zero scale factor (initial singularity) it can make the transition to an exponentially expanding de Sitter phase, with a probability comparable to that from quantum tunneling processes. The emphasis throughout is on the stochastic nature of back reaction, which comes from the quantum fluctuations of the fundamental fields.
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