English

Quantum bounce and cosmic recall

General Relativity and Quantum Cosmology 2008-11-26 v2 High Energy Physics - Theory

Abstract

Loop quantum cosmology predicts that, in simple models, the big bang singularity of classical general relativity is replaced by a quantum bounce. Because of the extreme physical conditions near the bounce, a natural question is whether the universe can retain, after the bounce, its memory about the previous epoch. More precisely, does the universe retain various properties of the state after evolving unitarily through the bounce or does it suffer from some cosmic amnesia as has been recently suggested? Here we show that this issue can be answered unambiguously at least within an exactly solvable model, derived from a small simplification of loop quantum cosmology, for which there is full analytical control on the quantum theory. We show that if there exists a semiclassical state at late times on one side, peaked around a pair of canonically conjugate variables, then there are very strong bounds on the fluctuations on the other side of the bounce, implying semi-classicality. For such a model universe which grows to a size of 1 megaparsec, at late times, the change in relative fluctuations of the only non-trivial observable of the model across the bounce is less than 105610^{-56} (becoming smaller for universes which grow larger). The universe maintains (an almost) total recall.

Keywords

Cite

@article{arxiv.0710.4543,
  title  = {Quantum bounce and cosmic recall},
  author = {Alejandro Corichi and Parampreet Singh},
  journal= {arXiv preprint arXiv:0710.4543},
  year   = {2008}
}

Comments

Some clarifying remarks and references added. To appear in Physical Review Letters

R2 v1 2026-06-21T09:35:38.853Z