2020
DOI: 10.1088/1361-6382/ab8354
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Bouncing and cyclic quantum primordial universes and the ordering problem

Abstract: In a Bohmian quantum cosmology scenario, we investigate some quantum effects on the evolution of the primordial universe arising from the adoption of an alternative non-trivial ordering to the quantization of the constrained Hamiltonian of a minimally coupled scalar field. The Wheeler-DeWitt equation has a contribution from the change in factor ordering, hence there are new quantum effects. We compare the results between the non-trivial and the trivial ordering cases, showing that the classical limit is valid … Show more

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Cited by 2 publications
(1 citation statement)
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“…These effective theories of gravity offer qualitatively similar results indicating a potential universality of this type of bounce scenario. Another interesting proposal for potential bounce cosmologies is that of an oscillatory, or cyclic, bounce [4,29,30] where a regular periodic bounce occurs at finite temporal intervals, and may offer an new avenue to resolving cosmological problems in the early universe [31,32]. The differences between these bouncing scenarios can also be viewed through the lens of Fig.1 where the fundamental cosmological parameters are plotted for each bounce model.…”
Section: Introductionmentioning
confidence: 99%
“…These effective theories of gravity offer qualitatively similar results indicating a potential universality of this type of bounce scenario. Another interesting proposal for potential bounce cosmologies is that of an oscillatory, or cyclic, bounce [4,29,30] where a regular periodic bounce occurs at finite temporal intervals, and may offer an new avenue to resolving cosmological problems in the early universe [31,32]. The differences between these bouncing scenarios can also be viewed through the lens of Fig.1 where the fundamental cosmological parameters are plotted for each bounce model.…”
Section: Introductionmentioning
confidence: 99%