Quantum Model of the Universe Volume II. Book III: Fundamental Hypotheses and Structural Discoveries

Quantum Model of the Universe (QMU)
Volume II, Book III — Fundamental Hypotheses and Structural Discoveries
Version: Universe Investigation
Author: Serge Kolesnyak
ORCID: 0009-0008-7506-4013
E-mail: intellectpictures@gmail.com
Date: January 2026
Field: Theoretical Physics / Quantum Cosmology / Information Physics
This book III is a continuously updated compilation of the Volume I, II, III and book series “Quantum
Model of the Universe”. The present version (v1.0) includes Book III of Volume II.

Abstract
This book, Book III of Volume II of the Quantum Model of the Universe (QMU), develops the theory
of cosmic structure formation, black hole regulation, and observational consequences within the fully
integrated QMU framework. The work systematically analyzes the formation and evolution of galaxies,
protogalaxies, stellar clusters, and black holes from ultra-early epochs to late cosmic times, emphasizing
structural invariants, phase-space constraints, and covariant vacuum–matter interactions.
Key results include invariant regulation of angular momentum, disk stability, turbulence, chemical
scaling, and coevolution of baryonic and dark matter components. Black holes are treated as
primary regulators of structure, providing feedback, scaling relations, and constraints on galaxy
formation. Observational signatures are linked to JWST results, cosmic infrared background correlations,
gravitational waves, and CMB anomalies. The book culminates in a synthesis connecting cosmic structure,
information flow, and global cosmological consequences.
All hypotheses are treated as self-contained, logically structured statements, empirically falsifiable,
and consistent with the overarching QMU Volume II framework. This volume positions structure
formation and observational phenomena as inevitable outcomes of global quantum–vacuum and
geometric constraints, completing the narrative initiated in Books I and II.

Introduction
Book III of Volume II continues the Quantum Model of the Universe (QMU) program by transitioning
from the analysis of cosmic acceleration and multi-domain cosmology into the detailed formation and
evolution of cosmic structures. The book focuses on the physical and structural mechanisms that govern
galaxy formation, black hole growth, and observable cosmological signals.
The content is organized into three major groups:
• Group V–VI Transition: Early cosmic structures, anomalous rotation curves, disk stabilization,
star cluster formation, and the role of vacuum and structural invariants in shaping proto-galaxies
at very high redshifts.
• Group VII: Black holes as primary structural regulators, including accelerated formation,
supermassive black hole growth scenarios, feedback mechanisms, and invariant coupling with
baryonic and dark matter components.
• Groups VIII–IX: Observational signatures and global consequences, linking early structure and
black hole evolution to infrared background correlations, JWST data, gravitational waves, cosmic
microwave background anomalies, entropy and information structures, and the emergence of
planetary, biological, and intelligence-related phenomena within cosmological constraints.
The chapters in this book (Chapters 98–152) are formulated as self-contained units with clear
structural, observational, and theoretical status. Each unit is embedded within the global QMU
framework, ensuring that local and cosmic phenomena are consistently related to the invariant and
covariant properties of the quantum–vacuum substrate.
This volume completes the structural narrative initiated in Books I and II, demonstrating how cosmic
structures, black holes, and observable signals emerge naturally as consequences of the same global
principles that govern the vacuum, accelerated expansion, and multi-domain cosmology. It bridges
the gap between early-universe theory, cosmic evolution, and measurable consequences, establishing
a unified, falsifiable, and predictive framework for late-time cosmology.