Extension of Roger Penrose's Conformal Cyclic Cosmology – A New Concept of Black Holes and the Transition Mechanism Through the Indeterminacy Space

In this paper, I present an original extension of Roger Penrose's Conformal Cyclic Cosmology (CCC) \cite{Penrose2010}. 
I propose a new mechanism for the Universe's transition between successive eons, based on the concept of the indeterminacy space \cite{Paruzel2025}, which represents a stable potential state devoid of classical geometry. 

According to my concept, spacetime and gravitational interactions emerge as a result of spontaneous tunneling from this metastable state. Black holes play a crucial role in this mechanism, serving as regions for accumulating information within the indeterminacy space. Unlike classical models, black holes do not collapse into singularities; instead, they collect information about the geometry and structure of the previous eon, setting the conditions for the birth of a new cosmological cycle.

A key aspect of the proposed theory is that the process of information accumulation by black holes determines the structure of the next eon. This information is not lost but undergoes selection and transformation into a potential state, which forms the foundation for the emergent spacetime of the new cosmological cycle.

The presented model provides testable predictions that can be verified using contemporary astronomical methods and gravitational wave detectors.

This work is part of a broader study on the indeterminacy space and its role in the structure of reality. A detailed discussion of other aspects of the theory can be found in separate publications \cite{Paruzel2025, Paruzel2025a, Paruzel2025b}.