The Hyper-Energy Theory (HET) proposes a transformative cosmological framework that replaces the traditional gravitational singularity with a stable "Hyper-Energy" phase transition. Drawing parallels between thermodynamics and cosmology, this model suggests that the universe functions as a metabolic cycle. In this framework, black holes act as "transitional seeds" where baryonic matter undergoes a phase change into ultra-dense Hyper-Energy, subsequently fueling the expansion of "child" universes. Key highlights of the HET model include: Resolution of the Singularity: Replaces infinite density with a physical, high-energy state. The Universe Tree: A fractal multiverse model where universes are born from "parent" black holes. Dark Energy Explained: Defines Dark Energy as the metabolic pressure exerted by a contracting parent universe on its offspring. Information Inheritance: Proposes that black holes serve as data storage, transferring the "DNA" of physical laws across generations of universes. This paper challenges the "Baryonic Bias" of modern observation, arguing that our current dimensional limitations prevent a direct perception of the Hyper-Energy state, much as a 2D being would struggle to perceive a 3D object.
Atticus Reyes Aguilar (Wed,) studied this question.