Author(s)

Massimo Auci^1,2

¹Maths and Physics Department, State European International School “Altiero Spinelli”, Via Figlie dei Militari 25, Torino, Italy.
²Space Science Department, Odisseo-Space, Via Battistotti Sassi 13, Milano, Italy.

The quantum-relativistic properties of space-time bubbles introduced in the recently proposed multi-Bubbles Universe model have been studied and deepened in the framework of the electromagnetic Bridge theory. In this context, it is shown how the space-time fabric of the emerging universe and the primordial matter contained in it, can be considered the final result of the decay of a pre-universe formed by a BEC of neutral Planck bosons hidden under the space-time horizon, having the characteristics of balancing gravitons associated with the potential energy of the vacuum defined as the field of nothingness. The estimated mass of the Planck boson is compatible with the smallest of the Kaluza-Klein graviton with an energy mass of 2.68 TeV, this value allows to estimate the limit of the Planck energy scale characterized by a lepton particle with a rest mass of 1.27 TeV. It is also shown as an ancient multi-bubble universe obtained by the decay of a pre-universe redshifted nowadays at 2.725 K, provides a Planck blackbody spectrum perfectly in agreement with the cosmic microwave background radiation of our universe measured by the COBE satellite.

Bridge Theory, Multi-Bubbles Universe, Balancing Graviton, Spacetime

Auci, M. (2023) Quantum-Relativistic Properties of the Space-Time Bubbles and Their Evolution in a Multi-Bubble Universe. Journal of Modern Physics, 14, 1045-1066. doi: 10.4236/jmp.2023.147058.