Torsionally-gravitating charged matter fields and quanta
Luca Fabbri
TL;DR
This paper explores a torsionally-completed gravitational model with charged fermionic matter, demonstrating its potential to avoid singularities and enable confinement, which are crucial for a consistent quantum theory of gravity.
Contribution
It introduces a torsion-inclusive gravitational framework with charged fermionic fields, highlighting new mechanisms for singularity avoidance and confinement.
Findings
Singularity impossibility in the torsional model
Potential for confinement of fermionic fields
Implications for quantum gravity consistency
Abstract
In the present article we shall consider the torsional completion of a gravitational background that is filled with electrodynamically interacting material fields, taken to be of fermionic type, eventually deriving properties like the impossibility of singularities and the possibility of confinement, both necessary for a correct quantum description.
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