This paper introduces the Cyclic Cosmology with Informational Inheritance (CCHI),a theoretical framework proposing that the universe undergoes repeated cycles of expansionand contraction mediated by a quantum bounce, during which statistical information aboutthe pre-bounce matter distribution survives into subsequent cycles, encoded in the post-bounceperturbation spectrum. Built upon Loop Quantum Cosmology (LQC), the framework presentsthree original contributions: a master equation governing the cyclic evolution of the primordial power spectrum via Bogoliubov transfer coefficients, which admits a stabilized fixed pointwhose resonant peaks nucleate Primordial Black Holes (PBHs); a derivation of EntropicTime Dynamics (ETD) from the effective LQC metric, identifying the chrono-entropic coupling Γ(ρ) = 1 − ρ/ρc = geff00 with no free parameters; and a unified mechanism connectinggravitational baryogenesis, PBH dark matter in the asteroidal mass window, and the seedingof supermassive black holes observed by JWST at z > 10. The framework yields falsifiable predictions for CMB-S4, LiteBIRD, the Roman Space Telescope, and LVK O4/O5, and addressesthe cyclic entropy problem through the distinction between thermodynamic entropy (dilutedeach cycle) and entanglement entropy (transferred as low-entropy correlations).
Samuel Krieger Bonini (Sun,) studied this question.