Big Bang

(13.8 Billion Years Ago)

The Universe began as a singularity, an infinitely dense and hot point where all matter, energy, space, and time were compressed. The "Big Bang" marks the rapid expansion of this singularity, creating spacetime, fundamental forces, and particles.
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The Origin of the Universe

The Role of Energy in the Universe

These irrefutable facts lead us to confidently assert that the universe originated from enormously powerful energy. This energy not only initiated the formation of matter but also continues to drive the dynamics of the universe.
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Matter generates a gravitational field

The gravitational field is not an independent “flow” or force

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The Diversity of Material Worlds

The Formation of Matter

The development of quantum physics has provided insights into how numerous and diverse material worlds were created within the universe. We now understand that the universe is composed of the same subatomic particles, both energetically and materially. This commonality among particles underscores the interconnectedness of all matter in the universe.
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The Role of Buffering

Fractals in Ecosystems

Life does not exist in isolation. Every organism is part of a larger system, from cells to ecosystems to the biosphere as a whole. These systems are governed by the same principles of Dynamic Buffering and Fractals that shape the Universe.
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Black Holes

Dark Energy

The relationship between black holes and dark energy can be likened to a powerful nuclear engine: on one side, it burns matter, converting it into energy, while on the other side, it emits energy into the universe. This analogy illustrates how black holes consume matter and, through their interactions, contribute to the expansion of the universe via dark energy.
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“Theory of Everything” (ToE)

Dynamic Buffering of Energy Flow (DBEF):

“Space Manager”

Concept

 

Date: 28.02.2025
Author: Armen Grigoryan

Preface

The Dynamic Buffering of Energy Flow (DBEF) concept is rooted in fundamental principles derived from our understanding of the universe and its underlying mechanics. This preface outlines the key principles that serve as the foundation for the DBEF concept:

1. The Origin of the Universe

To understand the DBEF concept, it is essential to consider the origins of the universe. Whether the universe was created from a singular Big Bang event, multiple explosions, or through some other mechanism, extensive studies indicate that the universe is composed of vast amounts of energy. This energy is a critical component in the formation and evolution of cosmic structures.

2. The Creation of Matter

The question of how matter arises is central to our understanding of the universe. Numerous experiments have demonstrated that when matter is burned, energy is released. This relationship is encapsulated in Einstein’s famous equation, E=mc², which illustrates that energy and mass are directly proportional. This principle reinforces the idea that the universe is fundamentally rooted in energy.

3. The Role of Energy in the Universe

These irrefutable facts lead us to confidently assert that the universe originated from enormously powerful energy. This energy not only initiated the formation of matter but also continues to drive the dynamics of the universe.

4. The Diversity of Material Worlds

The development of quantum physics has provided insights into how numerous and diverse material worlds were created within the universe. We now understand that the universe is composed of the same subatomic particles, both energetically and materially. This commonality among particles underscores the interconnectedness of all matter in the universe.

5. Understanding Forces as Dynamic Energy Flows

Fundamental principles governing the Universe, from its origin to the emergence of life. This document proposes a comprehensive framework that begins with the Big Bang, explores the formation of subatomic particles, the construction of atoms, and concludes with the deciphering of DNA as fractals in biological systems.

The Dynamic Buffering of Energy Flow (DBEF) concept proposes a unifying mechanism: energy flows dynamically interact to form matter, stabilize systems, and generate gravitational fields. This “Space Manager” framework reinterprets gravity as an emergent phenomenon arising from the interactions of the three Standard Model forces, offering a cohesive understanding of the universe’s fundamental workings.

This theory is built on the interplay of Dynamic BufferingFractals, and the Asynchronous Division of Energy Flows, connecting cosmology, quantum physics, and biology. It offers not only explanations for existing phenomena but also opens the door to new discoveries, addressing unanswered questions about the Universe and life itself.

Basic Axioms

This concept is based on Einstein’s equation:   

     E = Mc²

This equation defines the equivalence of energy and matter, recasting the fundamental interactions of the universe as manifestations of energy flows. By integrating DBEF, we propose a mechanism that regulates and stabilizes these flows, allowing the formation of different energy domains and structures.

In physics, mass–energy equivalence is the relationship between mass and energy in a system’s rest frame, where the two quantities differ only by a multiplicative constant and the units of measurement. The principle is described by the physicist Albert Einstein’s formula: E=mc². In a reference frame where the system is moving, its relativistic energy and relativistic mass (instead of rest mass) obey the same formula.

Energy as a Fundamental Entity

The universe consists exclusively of energy flows, which, under certain conditions, are transformed into matter. Matter is a localized, stabilized form of energy flow. Forces, as traditionally defined, are emergent phenomena that arise from the interaction and regulation of energy flows.

Dynamic Energy Flow Buffering (DBEF)

DBEF is the process by which chaotic energy flows are regulated, redistributed, and stabilized to create order and structure in the universe. The DBEF operates at all scales, from the formation of subatomic particles to the emergence of galaxies, ecosystems, and biological systems.

The Absence of Traditional Forces

According to Newton’s third law, “for every action, there is an equal and opposite reaction.” However, in our framework, there are no acting and reacting forces in the universe; there are only chaotic flows of energy.

Feigenbaum Constants in Chaos

The Feigenbaum constants are universal numbers that describe the behavior of systems undergoing period-doubling bifurcations—a process where chaos emerges from order.

  • δ (Period-Doubling Constant): Approximately 4.669, which controls the scale ratio between successive bifurcations.
  • α (Scaling Constant): Approximately 2.503, which controls the speed of convergence of bifurcation points.

Application of Energy Flows

In chaotic systems, energy flows can bifurcate (split) into stable patterns governed by these constants. By applying δ, the system transitions from 2 flows to 4, then 8, 16, and so on, creating a hierarchy of flows that stabilizes into cyclical patterns. After the 8th buffering, 256 streams are formed, after which δ ≈ 4.669, and repeating cycles begin—resulting in fractals.

Separation of Three Asynchronous Energy Flows and Their Role in Quantum Physics

The DBEF concept defines  three primary energy flows  that govern the creation of matter and the emergence of gravitational fields:

  1. Electromagnetic Flow: Governing light, radiation, and the interactions of charged particles.
  2. Weak Flow: Driving radioactive decay and neutrino interactions, essential for processes like nuclear fusion.
  3. Strong Flow: Binding quarks together to form protons and neutrons, the building blocks of atomic nuclei.

Matter generates a gravitational field

  • When matter formed, its  mass-energy content  began to curve space-time, as described by Einstein’s general theory of relativity.
  • This curvature of space is what we perceive as  a gravitational field . In this sense:
    • The gravitational field is not an independent “flow” or force, but a consequence of mass and energy created by the interaction of the three forces of the Standard Model.
    • The gravitational field is proportional to the mass and energy of the matter formed.
  • Gravity as an extraordinary phenomenon:  Gravity does not exist independently of matter and energy. It arises as a result of interactions that create mass and energy.
  • Unified understanding of forces:  While the forces of the Standard Model are responsible for the formation of matter, gravity is a secondary effect that arises from the mass-energy content of that matter.
  • Cosmic evolution:  The formation of matter after the Big Bang and the resulting gravitational fields played a major role in shaping the large-scale structure of the universe, including the formation of galaxies, stars, and planets.

Fractals are everywhere, they are the final resting place of energy.

Fractals arise as the final state of energy distribution, representing the stabilization and buffering of excess energy. Similar patterns are observed in natural systems, from cosmic structures to biological networks.

More About Everything

Dynamic Buffering of Energy Flow (DBEF)

I present to you three outstanding scientists: Albert Einstein, Richard Phillips Feynman and Mitchell Jay Feigenbaum, whose workы led to the Theory of Everything. They may not have foreseen it, but it is.
I have combined their work and created the Theory of Everything. The master key is DBEF, which is the basis for the formation of the Universe, Living Systems and Any Function.

The Master Key
Albert Einstein
Albert Einstein
Theoretical physicist
Richard Phillips Feynman
Richard Phillips Feynman
Theoretical physicist
Mitchell Jay Feigenbaum
Mitchell Jay Feigenbaum
Mathematical physicist

Standard Model of Particle Physics

he Standard Model of Particle Physics is a well-established theory that describes the fundamental particles and forces (excluding gravity) that make up the universe. It is often considered the “periodic table” of fundamental particles, organized into three main categories: fermionsbosons, and interactions governed by these particles. Here’s a breakdown:

1. Fundamental Particles

Fermions (Matter Particles)

  • These particles make up matter and obey the Pauli exclusion principle.
  • There are 12 fermions, split into 6 quarks and 6 leptons.
Quarks (Carry fractional electric charge)
  • Come in six “flavors”:
    • Up (u)down (d)charm (c)strange (s)top (t)bottom (b).
  • Quarks combine to form hadrons, such as:
    • Protons: Two up (u) and one down (d) quark.
    • Neutrons: One up (u) and two down (d) quarks.
  • Quarks experience all four forces, including the strong nuclear force.
Leptons (Do not participate in strong interactions)
  • Six types:
    • Electron (e)muon (μ), and tau (τ) (all with negative charge).
    • Three neutrinoselectron neutrino (νe)muon neutrino (νμ), and tau neutrino (ντ) (neutral charge).
  • Leptons experience the weak and electromagnetic forces; neutrinos only experience the weak force.

Anti-Particles

  • Each fermion has a corresponding anti-particle, identical in mass but opposite in charge.

2. Forces and Interactions

Gauge Bosons (Force-Carrying Particles)

  • The Standard Model explains three fundamental forces using force carriers:
    1. Electromagnetic Force: Mediated by the photon (γ).
    2. Weak Nuclear Force: Mediated by the W⁺, W⁻, and Z bosons (responsible for radioactive decay).
    3. Strong Nuclear Force: Mediated by gluons (g) (binds quarks together in protons and neutrons).

3. Higgs Boson (“The God Particle”)

  • Discovered in 2012 at CERN.
  • Associated with the Higgs field, which gives mass to particles.
  • The Higgs mechanism explains why matter particles have mass, crucial for understanding the universe’s structure.

Forces Excluded by the Standard Model

  • Gravity: The Standard Model does not include gravity, as it is described by General Relativity (a separate framework).
  • Efforts are ongoing to unify the Standard Model and gravity through theories like quantum gravity or string theory.

Summary

The Standard Model is highly successful in describing particle physics and forces, supported by extensive experimental evidence, including discoveries like the Higgs boson. However, it is incomplete, as it doesn’t explain dark matter, dark energy, or gravity, prompting efforts to go beyond the Standard Model.

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