Self-Similar Structure of the Universe and Fundamental Sense of Existence of Large and Small Black Holes in the Nature

TL;DR

This paper explores the self-similar structure of the universe through dynamic systems theory, proposing that black holes at different scales are interconnected and that black holes may serve as fundamental units in cosmic evolution.

Contribution

It introduces a novel perspective linking self-similarity in the universe to dynamic systems theory and suggests black holes as fundamental building blocks of cosmic development.

Findings

Self-similarity in the universe is linked to dynamic systems configurations.

Black holes may originate from Hawking radiation of larger black holes.

Black holes could serve as a cosmic genome influencing universe evolution.

Abstract

The origin of self-similar (according to Y.Kulakov) structure of the Universe is discussed from a position of the theory of dynamic systems (DS). A probable nature of the isomorphism of DS configurations of different levels is revealed. Nucleon DS configuration like black hole (BH) might be acquired by the last as a result of Hawking radiation of initial BH and serve further as a genome of the Universe development.