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Auteur principal: Fornal, Bartosz
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2603.24669
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author Fornal, Bartosz
author_facet Fornal, Bartosz
contents We consider a Universe with a three-torus topology which before inflation is devoid of any matter or radiation. Its pre-inflationary evolution is driven solely by Casimir energies of the existing fields, with a radiation-like equation of state. We show that, quite strikingly, with the appropriate number of fermions and bosons in the theory, such a Universe evolving from Planck size at Planck time has the correct critical energy density today. Moreover, assuming typical parameters for inflation and reheating, the three-torus Universe can be several Hubble radii across at present time, which is precisely the size hinted by the anomaly in the cosmic microwave background observed at low multipole moments. We derive a relation between the size of the Universe, the number of e-folds of inflation, and the energy density decrease during reheating, which we then use to determine the parameter values consistent with the anomaly and the lower bound on the size of the Universe from Planck.
format Preprint
id arxiv_https___arxiv_org_abs_2603_24669
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The Universe Originating from an Empty Planck-Size Torus
Fornal, Bartosz
High Energy Physics - Theory
Cosmology and Nongalactic Astrophysics
We consider a Universe with a three-torus topology which before inflation is devoid of any matter or radiation. Its pre-inflationary evolution is driven solely by Casimir energies of the existing fields, with a radiation-like equation of state. We show that, quite strikingly, with the appropriate number of fermions and bosons in the theory, such a Universe evolving from Planck size at Planck time has the correct critical energy density today. Moreover, assuming typical parameters for inflation and reheating, the three-torus Universe can be several Hubble radii across at present time, which is precisely the size hinted by the anomaly in the cosmic microwave background observed at low multipole moments. We derive a relation between the size of the Universe, the number of e-folds of inflation, and the energy density decrease during reheating, which we then use to determine the parameter values consistent with the anomaly and the lower bound on the size of the Universe from Planck.
title The Universe Originating from an Empty Planck-Size Torus
topic High Energy Physics - Theory
Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2603.24669