This study redefines the phenomenon of cosmological expansion not as a physical metric growth, but as an informational horizon expanding within a static manifold. Observations of cosmological redshift and time dilation in the current -CDM model are explained through Spectral Dissipation and Informational Latency, resulting from non-local interactions of propagating quantum excitations with vacuum fluctuations. It is theorized that when the informational density of the system reaches the Bekenstein Bound, a mandatory Cosmological Phase Transition occurs, triggering metric regeneration where fundamental state vectors are transferred to the next Aeon via quantum tunneling. This model eliminates the singularity paradox and positions the universe as a deterministic, cyclic information-processing system.
Halis Pala (Mon,) studied this question.