Bulg. J. Phys. vol.50 no.4 (2023), pp. 412-438

Perspectives about Scales and Hierarchies in a Three-Dimensional Quantum Vacuum Ruled by Generalized Uncertainty Relations

Davide Fiscaletti1, Amrit Sorli2
1SpaceLife Institute, Via Roncaglia, 35-61047 San Lorenzo in Campo (PU), Italy
2Bijective Physics Institute, Ptuj, Slovenia
Abstract. A model of a three-dimensional dynamic quantum vacuum defined by a variable energy density and ruled by generalized uncertainty relations is considered, which leads to a unifying treatment of microphysics of elementary particles and macrophysics of black holes in terms of a generalized Compton wavelength. In this model, new keys of explanation of scales, hierarchies and Higgs mass generation of the Standard Model are explored as a consequence of dissipative features of the vacuum originated by elementary sub-Planckian objects at the generalized Compton wavelength.

doi: https://doi.org/10.55318/bgjp.2023.50.4.412

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