Shannon entropy of fermions in Gödel-type space–times with torsion and topological defects
A. R. P. Moreira, Li Ma, Abdelmalek Bouzenad, Faizuddin Ahmed
Abstract
In this study, we investigate the quantum information properties and Landau quantization of fermions in Gödel-type space–times with torsion. By analyzing the influence of torsion on the quantum dynamics of fermions, we explore the modifications in the energy spectra and the implications for quantum information measures such as Shannon entropy. The Gödel-type space–time, characterized by its rotating universe model, introduces a nontrivial topology that, combined with torsion effects, leads to unique quantum behavior. Our findings reveal significant shifts in the quantum information metrics.
Topics & Concepts
PhysicsFermionTorsion (gastropod)GödelTheoretical physicsEntropy (arrow of time)Topology (electrical circuits)Mathematical physicsQuantum mechanicsCombinatoricsMedicineMathematicsArtificial intelligenceSurgeryComputer scienceTopological Materials and PhenomenaSpectral Theory in Mathematical PhysicsAdvanced Materials Characterization Techniques