We propose a hybrid theoretical framework that integrates Informational Geometry with Einstein–Cartan gravity to describe cyclic cosmology. In this approach, spacetime geometry and gravitational dynamics emerge from an underlying energetic substrate — termed informational geometry — that originates with the Big Bang. Local informational density within this substrate sources both curvature and torsion. Torsion arises as a geometric response to informational over-compression and provides a natural mechanism for singularity avoidance, enabling bouncing cosmologies inside black holes. Black holes are reinterpreted as informational boundaries that separate domains with non-alignable temporal structures. The framework leads to a cyclic cosmological picture in which each bounce carries partial structural imprints from previous cycles. These imprints may manifest, for example, in the observed matter–antimatter asymmetry and in certain large-scale cosmological features. The approach offers a unified informational and geometric account of gravity, black hole thermodynamics, and cosmic evolution, while recovering general relativity in regimes of low informational density.
Giuseppe Junior Greco (Fri,) studied this question.
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