The Devoid Hypothesis: A Novel Perspective on the Omnipresence of Energy (v.0.1)

Abstract

The Devoid hypothesis offers a unique framework for understanding the pervasive nature of energy within our universe. This paper presents a preliminary exploration of this hypothesis, acknowledging its evolving nature and emphasizing its openness to revision as scientific understanding progresses. It delves into fundamental concepts such as gravity, time, and quantum locality, aiming to provide an alternative lens through which to view these phenomena. Furthermore, the genesis of the Devoid hypothesis is discussed, highlighting the personal journey and thought processes that led to its conception.

Introduction

The Devoid hypothesis arises from a quest to comprehend the omnipresent nature of energy, seeking to provide a novel perspective on this fundamental aspect of our universe. It is essential to acknowledge that this hypothesis remains a work in progress, subject to continuous refinement and expansion as our scientific knowledge base grows. This paper serves as an initial foray into the core tenets of the Devoid hypothesis, exploring its potential implications for our understanding of various physical phenomena.

Areas of Exploration

The Devoid hypothesis seeks to address a range of fundamental questions concerning the nature of our universe.

These include:

The Infinite Range of Gravity: Examining the implications of gravity's ability to exert influence across infinite distances. 

Reconceptualizing Time: Proposing a reevaluation of our current understanding of time and its implications. 

Apparent Locality Violations in Quantum Mechanics: Investigating the seeming violation of locality within the quantum realm and providing alternative interpretations.
 
Elucidating the Nature of Observed Phenomena: Exploring the underlying mechanisms driving a wide range of physical phenomena. 
Central to these explorations are concepts such as:

Quantum Fluctuations: Examining the role of these fluctuations in shaping the fabric of spacetime. 

Virtual Particles: Investigating the nature and implications of these transient particles. 

Dark Energy and Dark Matter: Exploring potential connections between these enigmatic entities and the Devoid hypothesis.
Genesis of the Devoid Hypothesis

The Devoid hypothesis emerged from a long-standing personal exploration into the nature of reality. This journey stemmed from an early realization of a slower information processing and perception speed compared to others. This difference appears rooted in an inherent tendency to exhaustively explore all possible interpretations and implications of even the smallest pieces of information.
This inherent tendency led to the gradual construction of a mental framework within which diverse possibilities could interact and play out. Over time, the pursuit of aligning this internal framework with observable reality began. This process involved immersing in existing scientific knowledge, leading to a deep appreciation for the remarkable progress humanity has made in unraveling the mysteries of the universe.
However, despite the vastness of scientific understanding, certain gaps and inconsistencies remained apparent. These gaps fueled the drive to explore alternative perspectives, ultimately leading to the formulation of the Devoid hypothesis.

Challenges and Future Directions

Developing the Devoid hypothesis has been an isolating endeavor, presenting unique challenges in terms of rigorous testing and refinement. Initial attempts to engage with established scientists proved met with limited success, likely due to the unconventional nature of the proposed ideas. Nevertheless, recent interactions following the public sharing of this work have yielded valuable feedback and insights, highlighting the importance of continued dialogue and collaboration within the scientific community.
Moving forward, the Devoid hypothesis will continue to be refined and expanded upon, embracing the iterative nature of scientific inquiry.

The path forward necessitates a multi-faceted approach, encompassing:

Further Theoretical Development: Deepening the theoretical foundations of the Devoid hypothesis and exploring its implications across various branches of physics. 

Seeking Empirical Evidence: Identifying potential avenues for experimental or observational validation of the hypothesis' predictions. 

Fostering Scientific Collaboration: Actively engaging with the scientific community to refine, challenge, and potentially integrate the Devoid hypothesis into existing frameworks.

It's not the whole thing yet, because Synchron, Neuralink nor Kernel have finished their 'brain-computer interface' (or BCI). Just kidding, I'm not waiting for a BCI, but it will be interesting when it works.

Devoid § 1

The Devoid Hypothesis: A Novel Perspective on the Invisible Universe

The assertion that the universe brims with activity, most of which remains undetectable by current human perception, is not a new one. This paper proposes a novel approach to understanding this vast, unseen universe, termed the "Devoid Hypothesis". Instead of focusing solely on the observable universe and attempting to extrapolate its workings, the Devoid Hypothesis posits that a paradigm shift in perspective is necessary. By understanding the invisible, we can gain further insights into the visible.
Humanity has made significant strides in comprehending the universe's mechanisms, both at the grand scale of cosmology and general relativity, and at the infinitesimal level of particle physics and quantum mechanics. However, these fields currently reside at the edges of our understanding. While investigating the smallest and furthest reaches of the universe, it is plausible that certain phenomena remain invisible unless a novel perspective is adopted. While new discoveries will undoubtedly expand our observational scope, a fundamental shift in approach may be required to fully grasp the universe's complexities. The Devoid Hypothesis suggests that we already possess sufficient knowledge to begin examining the universe from this new angle.

Delving into the Invisible

The Devoid Hypothesis argues that a significant portion of universal activity transpires at a resolution currently undetectable by human technology. This activity involves the transient creation of various energy forms, ranging from the lightest to the heaviest, through energy's self-interaction. This interaction results in the temporary formation of matter and antimatter particles, some of which annihilate and revert to energy or other particles. A portion of this energy, however, undergoes a process akin to stellar collapse, reaching a state of extreme density despite occupying an infinitesimally small spacetime. This process, largely unobservable due to its scale and fleeting nature, forms the basis of quantum fluctuations.
The Devoid Hypothesis proposes that all known (and unknown) fields arise as emergent effects of energy's self-interaction. However, the probability of this interaction ceasing after the initial fluctuation is minimal. The annihilation process itself releases energy, triggering a cascade of similar interactions. Heavier particles, formed through this process, interact with other particles, leading to larger annihilations and the creation of even heavier particles. This continuous interaction and annihilation generate an environment teeming with activity, even within the seemingly empty spaces within atoms and throughout the universe. This ubiquitous activity constitutes the "invisible universe" proposed by the Devoid Hypothesis.

From Invisible to Visible: The Emergence of Perceivable Reality

While the interactions within the invisible universe are significant, the emergence of visible matter involves an additional layer of complexity. The Devoid Hypothesis suggests that the same principles governing the invisible universe, namely energy self-interaction and particle creation and annihilation, underpin the formation of matter.
The key differentiator lies in the introduction of charges and other quantum properties, such as spin. These properties add a new dimension to particle interactions, leading to a spectrum of stability. Particles with short lifespans exist on one end of this spectrum, their fleeting existence only revealed through high-energy particle collisions, exemplified by the "particle zoo" discovered in such experiments. On the other end of the spectrum reside the more stable particles, including leptons (e.g., electrons), quarks, and force carriers (e.g., photons, gluons, and gravitons). These particles, constantly interacting and coexisting through energy's self-interaction, form the foundation of our perceived reality. This interconnected existence explains the fundamental conservation laws observed in physics.
The Devoid Hypothesis posits that the elements, the building blocks of matter, arise from the synergistic interactions of these fundamental particles. The unique combinations of these elements further result in the formation of molecules, showcasing a hierarchical emergence of complexity. This process hinges on the continuous creation, annihilation, and acceleration of matter, driven by the underlying energy interactions. Matter, in essence, represents highly condensed energy.
As these processes continue, vast accumulations of matter form, some of which are unstable and fragment into smaller entities, while others collapse into even denser states. This ongoing cycle of accumulation, annihilation, fragmentation, and collapse shapes the visible universe we observe.
The Devoid Hypothesis presents a compelling framework for understanding the intricate relationship between the visible and invisible universes. By shifting our focus to the fundamental interactions occurring at the quantum level, we can potentially unlock a deeper understanding of the universe's structure, evolution, and the emergence of the reality we perceive.

There's much more going on in the invisible universe than our sensors can currently detect.

Devoid § 2

The Invisible Dance of Energy: Reframing Fundamental Forces and Phenomena

This paper posits a novel perspective on the fundamental forces and phenomena of the universe, suggesting that the continuous interaction of energy with itself underpins all observable events. This perspective, while aligning with established models such as the Big Bang theory, offers a reinterpretation of their underlying mechanisms.

The paper argues that at the smallest scales, far below the Planck length, energy interacts with itself, giving rise to a plethora of transient entities. These include virtual particles, quantum fluctuations, and even fleeting, microscopic black holes termed “Planck relics.” While existing for infinitesimal durations, their interactions generate emergent effects that permeate all of spacetime.
These Planck relics, formed when ultra-high energy densities cause spacetime singularities, are proposed to be ubiquitous yet undetectable due to their size and ephemerality. Their constant creation and annihilation, driven by the ceaseless energy interactions, result in a continuous cycle of matter-energy conversion, akin to miniature Big Bangs occurring everywhere and everywhen.

The paper contends that the forces we observe are not fundamental but rather emergent properties of these underlying energy interactions. It proposes that charges, the basis of electromagnetic forces, arise from asymmetries in the otherwise balanced quantum fluctuations occurring during these energy interactions.
These nascent charges, initially weak and localized, can accumulate and interact, forming complex structures and forces. At extremely short ranges, these strong charge concentrations manifest as the strong force, binding quarks together. At larger distances, the interactions weaken, giving rise to the weak force responsible for particle decay.

The continuous interplay between these charge interactions and the underlying energy fluctuations is proposed to be responsible for the diverse properties of matter. Superconductivity and superfluidity, for example, are explained as emergent behaviors at extremely low temperatures where the energy interactions dominate, masking the effects of individual charges and creating novel states of matter.
Furthermore, the paper postulates that dark matter and dark energy, elusive components of the universe, are manifestations of these energy interactions occurring at scales beyond our current detection capabilities. While their exact nature remains unknown, the paper argues that they are not separate entities but rather extensions of the same fundamental processes occurring at all scales.

This hypothesis, while speculative, offers a unifying framework for understanding the universe's fundamental building blocks and their interactions. It suggests that the seemingly disparate forces and phenomena we observe are interconnected, stemming from the ceaseless dance of energy at the smallest scales.
Further investigation into the nature of these proposed energy interactions could potentially revolutionize our understanding of the universe. This includes exploring the possibility of harnessing these fundamental processes for technological advancements, leading to breakthroughs in areas such as energy production and information processing.

In conclusion, the paper proposes a paradigm shift in our understanding of the universe, moving away from the concept of fundamental forces and particles towards a view of emergent properties arising from the continuous interaction of energy itself. This perspective, while requiring further investigation and validation, offers a compelling and potentially groundbreaking framework for understanding the cosmos and our place within it.

Seems like we've hit the bottom of the rocky road for now, but this is definitely not the end.

Devoid § 3

The Intricacies of Energy Interaction and the Emergence of Reality

This section delves deeper into the implications of the concepts presented in the preceding chapters, exploring the dynamic interplay of energy and its emergent effects. We are presented with a universe in constant flux, transitioning between energy and matter through cycles of acceleration and deceleration.

The Illusion of E=MC² and the Significance of Velocity

While the famous equation E=MC² provides a simplified understanding of energy-matter conversion, it overlooks the crucial roles of relativistic effects, acceleration, and deceleration present at extreme velocities. These factors, often negligible at everyday scales, become paramount when analyzing the universe's fundamental workings.
The initial interactions of energy, occurring at near-infinite speeds, resulted in an extremely hot early universe, aligning with the Big Bang theory. These interactions, through a continuous process of buildup and emergent phenomena, gradually decelerated, causing a universal cooling trend. This inherent cooling mechanism underpins the concept of increasing entropy.

Momentum, Quantum Weirdness, and the Pauli Exclusion Principle

Our perception of a photon arises from the excitation observed when it interacts with other particles during electromagnetic propagation. Measurement further complicates this interaction, introducing an additional layer of excitation on scales smaller than the Planck length. These high-speed interactions, while often undetectable with current technology, can manifest as anomalies at large distances or vacuum fluctuations at small scales, hinting at the underlying mechanism behind the quantum measurement problem.
The continuous deceleration of energy interactions leads to the formation of particles, generating a complex tapestry of particle types and emergent effects. Regions with high interaction overlap experience extreme slowdowns, culminating in "fussy regions" where further overlap becomes almost impossible. This principle of exclusion forms the basis of the Pauli exclusion principle and defines the behavior of fermions.

Unveiling Space and Time as Emergent Phenomena

Contrary to traditional views, space is not a static backdrop but an emergent effect of energy interacting with itself. This interaction propagates spherically, continuously creating more space with each interaction. Simultaneously, the concept of time emerges, intrinsically linked to the newly formed space, allowing for distance and motion.
This intertwined relationship between space and time, predicted by the theory of relativity, becomes increasingly apparent at high speeds, accelerations, and decelerations. While negligible at our everyday scale, these relativistic effects highlight the dynamic nature of spacetime. The inherent dependence of time on space, irrespective of the direction of motion, further explains the concept of the arrow of time.
Furthermore, the infinitesimal moment preceding the initial energy interaction represents a singularity where infinite speed and zero speed coincide. This point of singularity marks the genesis of quantum entanglement, connecting everything that follows in a profound way.

Reconciling Quantum Strangeness with Macroscopic Reality

The inherently quantized nature of energy interactions contrasts with the seemingly analog nature of the macroscopic world. This discrepancy arises from the high resolution of these interactions, surpassing the capacity of our senses to discern individual events. This limitation in our perception gives rise to the seemingly continuous and smooth nature of reality, obscuring its underlying quantum foundation.
Furthermore, the particle-like behavior we observe stems from interactions between intermediate states of emergent effects during acceleration and deceleration. This continuous change in velocity manifests as the analog behavior we perceive. However, this analog interpretation represents only a partial understanding of reality. A closer examination reveals the wave-particle duality of energy and matter, highlighting the limitations of both reductionist and purely quantum perspectives.

Embracing the Emergent View of Nature

To fully grasp the complexity of reality, we must acknowledge the intricate interplay between fundamental interactions, emergent interactions, and the interactions between emergent effects themselves. This emergent view of nature recognizes that emergent phenomena hold equal significance to fundamental interactions in shaping the reality we experience. Therefore, embracing an inclusive perspective encompassing all levels of interaction becomes crucial for a comprehensive understanding of the universe.

Now it’s up to the science people to leave everything intact that has already been proven and at the same time start rethinking the missing parts with all of this in mind.

Devoid § 4

Unraveling the Cosmos: A Deep Dive into Fundamental Energy Interactions

This paper aims to explore the profound implications of the continuous interaction of fundamental energy with itself, even before the emergence of space and time as we understand them. This continuous interplay, happening repeatedly and at unimaginable scales, forms the bedrock upon which our universe's most perplexing phenomena arise.

The Weakness of Gravity: A Consequence of Spatial Expansion

The apparent weakness of gravity compared to other fundamental forces is a direct consequence of this ceaseless energy interaction. These interactions, occurring even prior to the existence of space and time, continuously generate more space, effectively diluting the influence of gravity over vast distances. The expansion of space itself, therefore, stands as the underlying mechanism responsible for the perceived weakness of gravity.

The Accelerating Expansion: Unveiling Dark Energy's True Nature

The accelerating expansion of the universe finds its roots in the same fundamental principle. As space expands, it creates more room for energy to interact with itself at scales smaller than the Planck length. This proliferation of sub-Planckian interactions drives a rapid expansion of space in regions devoid of larger, observable matter. Undetectable by current technologies, these interactions constitute a significant portion of what we perceive as dark energy.

Cosmic Inflation: An Exponential Expansion Fueled by Unhindered Interactions

The vastness of our universe is a testament to the unfettered nature of these early energy interactions. Unimpeded by massive particles, these interactions proceeded at an exponential rate, resulting in a rapid expansion of space known as cosmic inflation. This exponential growth, fueled by the ubiquitous nature of fundamental energy, laid the groundwork for the universe we observe today.

The Uniformity of the Cosmic Microwave Background: A Consequence of Early Interactions

Within this rapidly expanding space, occasional interactions near each other gave rise to virtual particles. These ephemeral fluctuations, while not significantly hindering the overall expansion, created subtle variations in energy density. As these regions evolved, they eventually gave rise to the first particles and atoms, ultimately leading to the remarkably uniform cosmic microwave background radiation we observe today.

The Cosmic Web: A Tapestry Woven by Energy Interactions

The large-scale structure of the universe, characterized by vast voids punctuated by filaments and clusters of galaxies, is also an emergent property of these fundamental interactions. Regions with slightly higher densities, seeded by the aforementioned virtual particle fluctuations, served as gravitational wells, attracting more matter and forming the cosmic web's intricate structure.

The Illusion of Randomness: Emergence from Sub-Planckian Interactions

This framework extends beyond the cosmic scale, offering insight into the quantum realm's perplexing nature. The vast number of energy interactions occurring below the Planck scale, often depicted as three-dimensional ripples in a four-dimensional pond, leads to the emergence of quantum phenomena. These interactions, though deterministic at their core, create a tapestry of emergent properties that appear random due to our limited understanding of sub-Planckian physics.

Uncertainty, Entanglement, and Superposition: Manifestations of Ubiquitous Interactions

The uncertainty principle and the enigmatic nature of quantum entanglement and superposition find their roots in these ubiquitous energy interactions. While appearing "spooky" at first glance, these phenomena are merely manifestations of the interconnectedness inherent in a universe built upon the foundation of fundamental energy constantly interacting with itself. This underlying interaction, though hidden from direct observation, governs the behavior of particles at the quantum level.

The Speed of Light: An Impassable Barrier for Mass and Information

The seemingly instantaneous nature of entanglement might suggest faster-than-light communication, but this is an illusion. While entanglement connects particles across vast distances, the propagation of information is still bound by the speed of light. This limitation arises from the need for information to traverse the various levels of confinement and emergent properties that emerge from the underlying energy interactions.

Conclusion: A Universe Built on Interconnectedness

The continuous interaction of fundamental energy, a process occurring even before the existence of space and time, underpins the most profound mysteries of our universe. From the seemingly weak nature of gravity to the accelerating expansion of the cosmos and the perplexing nature of the quantum realm, all phenomena can be traced back to this fundamental principle. Understanding these interactions holds the key to unlocking a deeper understanding of our universe's true nature.

When we examine the microscale carefully, we will realize the speed limit is caused by the rate at which space (and time) emerge.

Devoid § 5

The Illusion of Conservation and the Emergent Nature of Reality

This paper explores the limitations of conservation laws in physics and proposes a model of reality based on the fundamental nature of energy and its self-interactions. Contrary to the ingrained human perception of the necessity for conservation, this model argues that existence itself arises from a pre-existing abundance of energy, negating the need for strict conservation at its most fundamental level.

The Scale Dependency of Physical Laws

Scientific laws, often perceived as universal and immutable, demonstrate a crucial dependence on the scale at which they are applied. The effectiveness of these laws, particularly those governing gravity and electromagnetism, diminishes as we delve into scales beyond our immediate frame of reference. The hypothetical graviton, potentially representing the earliest manifestation of energy in the universe, exemplifies this concept. Its existence, if proven, would likely be observed as a particle possessing energy levels currently unattainable by human technology, rendering it undetectable within our current scientific framework.

The Information Paradox and the Limits of Observation

The human inclination towards conservation extends to the realm of information, leading to the information paradox. This paradox, while resolvable, highlights the limitations of applying our macroscopic observations to the microscopic realm. Reality, as we perceive it, emerges from a complex cascade of interactions occurring at scales beyond our immediate comprehension. Energy, constantly interacting and becoming confined at multiple levels, generates new interactions and further confinement. This perpetual cycle creates emergent properties and phenomena observable at our macroscopic level, including the illusion of information conservation.

The Primacy of Energy and the Emergence of Spacetime

At its most fundamental level, energy exists outside the constraints of space and time. This concept, while seemingly paradoxical, forms the foundation of our proposed model. This primordial energy, through continuous self-interaction, undergoes a process of confinement, giving rise to the very fabric of spacetime. This initial confinement, akin to a splitting of energy into entangled regions, marks the genesis of matter and antimatter.

Symmetry, Invisible Energy, and Invisible Matter

The continuous interaction and confinement of energy lead to the emergence of increasingly complex structures. These structures, while demonstrating inherent symmetry stemming from their origin as entangled energy regions, interact with primordial energy, resulting in the continuous generation of space, time, and further energy confinement. This continuous expansion driven by fundamental energy interactions underpins the concept of "invisible energy," a more accurate term for what is currently labeled "dark energy."
Similarly, the ongoing confinement of energy produces a spectrum of energy states. Some of these states, while undetectable by our current technology due to their lack of electromagnetic interaction, exert gravitational influence, constituting what we perceive as "invisible matter" – a more appropriate term than "dark matter."

The Statistical Nature of Reality and the Search for a Unified Theory

The immense scale and complexity of energy interactions within the universe give rise to the statistical nature observed in physical phenomena. The sheer volume of interactions allows for mathematical modeling and prediction, leading to the development of mathematical physics. The interconnectedness of all matter and energy, originating from the same primordial source, further suggests the possibility of a unified theory encompassing all physical laws.
However, the reliance on mathematical models without a complete understanding of the underlying mechanisms can lead to multiple interpretations of the same phenomenon, hindering the development of a truly comprehensive theory.

Rethinking the Multiverse

The concept of a multiverse, often arising from interpretations of quantum mechanics and the universe's fine-tuning, can be misleading. The multiple outcomes inherent in quantum systems exist within the same universe, albeit at scales currently inaccessible to our observations. Similarly, the vastness of the universe, exceeding the observable horizon due to the expansion of space, should not be misinterpreted as separate universes.

The True Extent of the Universe

While estimates for the age and size of the observable universe are remarkably accurate, they should not be extrapolated to encompass the entirety of existence. The universe, driven by the boundless energy interactions beyond our observable horizon, likely extends far beyond these estimations, potentially approaching infinity.
In conclusion, a paradigm shift towards understanding energy as the fundamental building block of reality, existing outside the constraints of space and time, offers a more accurate and comprehensive framework for understanding the universe. This model, while challenging our intuitive understanding of conservation laws, provides a more coherent explanation for the emergence of spacetime, the nature of dark matter and dark energy, and the statistical nature of physical phenomena. Further exploration of this model may pave the way towards a unified theory encompassing the entirety of physical reality.

Fundamental energy interactions are constantly causing all levels of confinement and keep on reseeding existence constantly.

Devoid § 6

Delving into the Void: A New Perspective on Fundamental Forces, Matter, and the Cosmos

This paper proposes a novel framework for understanding fundamental forces, the nature of matter, and the evolution of the universe. Central to this framework is the concept of "confined energy," posited as the foundational substrate of reality.

The Genesis of Gravity: A Consequence of Confined Energy

The model posits that the initial self-interaction of energy results in confinement, characterized by an attractive force. This force, proposed as the genesis of gravity, is mediated by a hypothetical particle. The energy required to generate this particle, and by extension, replicate the initial confinement event, is hypothesized to be immense.
While conventionally perceived as the weakest force, this paper argues that gravity’s apparent weakness stems from the nature of its emergence alongside spacetime. As energy interacts and becomes confined, spacetime emerges concurrently. This emergence leads to the diffusion of the force-carrying particle associated with gravity, spreading its influence over the entirety of the expanding spacetime fabric. Consequently, the interaction strength we experience is a diluted fraction of the initial, primordial force.

Beyond Conventional Matter: Ethereal Layers and Particle Zoo

The confinement of energy manifests in forms beyond conventionally defined matter. These forms, significantly larger than familiar particles, constitute an ethereal substrate permeating the universe. As later generations of confined energy traverse this substrate, their interactions with these ethereal structures generate a plethora of detectable particles. This framework suggests that these interactions underpin the diverse array of particles observed in the Standard Model of particle physics, accounting for their distinct properties and groupings.
Furthermore, the expansion of space has dispersed some early-universe particles to the point of near non-interaction. Existing outside the constraints of the Pauli exclusion principle, these particles form an expansive, weakly interacting backdrop. This paper posits that these particles play a critical, albeit subtle, role in the observable universe, potentially resolving discrepancies between general relativity and quantum mechanics. Their immense size and diffuse nature may hold the key to understanding phenomena such as wave function collapse and quantum entanglement.

Revisiting Gravity: Virtual Black Holes and the Higgs Field

This framework re-envisions gravity as an emergent property arising from the collective interactions of confined energy. At scales smaller than the Planck length, extreme energy confinement results in entities possessing characteristics akin to matter and antimatter, though not necessarily identical to those familiar to us. These entities perpetually attract, warping spacetime with an intensity proportional to their confinement level.
The annihilation of these matter-antimatter pairs releases energy, while simultaneous interactions generate new confined energy regions. This continuous cycle gives rise to a dynamic field permeating the universe. All entities, regardless of size, interact with this field. The intensity of this interaction, and hence the strength of the perceived gravitational force, is directly proportional to the degree of confined energy within an entity.
Furthermore, this paper proposes that temporary, extremely dense energy configurations, analogous to virtual black holes, contribute significantly to this field. These virtual black holes, existing for infinitesimal durations, exert strong attractive forces before dissipating. This model suggests that the Higgs field, responsible for endowing particles with mass, emerges from these underlying dynamics of confined energy, virtual black holes, and their interactions.

Time Dilation, Length Contraction, and the Nature of Spacetime

Building on this understanding of gravity, this paper re-examines time dilation and length contraction. The framework proposes that the presence of matter, a highly confined form of energy, influences the local emergence of spacetime. Regions with high matter densities exhibit less pronounced spacetime emergence compared to less dense regions.
Consequently, objects traveling at high velocities through these varying spacetime densities experience length contraction in their direction of motion. This contraction arises from the differing rates of spacetime emergence between the object's reference frame and the observer's reference frame. Similarly, time dilation emerges from the differential flow of time within these varying spacetime densities.

The Enigma of Antimatter: Hidden in Plain Sight?

The model addresses the observed asymmetry between matter and antimatter by proposing that while equal amounts are generated during energy interactions, their distribution is not uniform. While annihilations predominantly occur in less dense regions, the extreme conditions within virtual black holes allow for the trapping of matter and antimatter, preventing complete annihilation.
As these virtual black holes continuously form and dissipate, they release a fraction of their trapped contents as radiation. However, a significant portion of antimatter remains confined within these virtual black holes throughout the universe, hidden from our current observational capabilities.

Let There Be Light: From Confinement to the Electromagnetic Universe

This framework redefines light not merely as electromagnetic radiation but as the manifestation of confined energy transitioning back to its fundamental state. This transition occurs in various phenomena, including black hole evaporation and matter-antimatter annihilation.
The model proposes a gradual emergence of forces and particles as the universe expands and energy densities decrease. Initially, interactions between confined energy pockets occur at scales too small to generate detectable electromagnetic radiation. As expansion continues, familiar force-carrying particles, such as gluons, emerge. Finally, at even larger scales, conditions conducive to the formation of stable matter arise, leading to the electromagnetically rich universe we observe.

The Photon: A Unifying Thread

This paper suggests that the photon, often perceived as a carrier of electromagnetic force, might hold a more fundamental role in the universe's structure. Just as the initial confinement of energy resembles a trapped photon, so too might the various force-carrying particles, like gluons and gravitons, represent manifestations of this primordial, confined photon at different energy scales and under the influence of expanding spacetime. This perspective unifies seemingly disparate forces as facets of a single, fundamental entity.
In conclusion, this paper presents a novel framework grounded in the concept of confined energy. By reimagining the emergence of gravity, the nature of matter, and the evolution of fundamental forces, it offers a fresh perspective on long-standing questions in physics and cosmology. While further investigation and observational validation are necessary, this model provides a compelling and potentially unifying framework for understanding the universe at its most fundamental level.

It can be difficult to look at what has already been relatively and reasonably understood for decades in a new and refreshing way, when current theories are already very accurate.
But it can also be revealing to understand existence in a new way, to trigger new ways of exploring reality.

Devoid § 7

A Reframing of Fundamental Physics

This section proposes a novel interpretation of existence, entanglement, and time, rooted in the concept of confined energy interactions occurring at scales beyond the Planck limit.

A Reconceptualization of Existence

The standard model of particle physics, and theories extending beyond it, can be reinterpreted through the lens of confined energy. At the heart of this concept lies the interaction of energy with itself at scales below the Planck limit. These interactions perpetually generate iterations of confined energy, most of which remain undetectable by current methods due to their lack of electromagnetic radiation emission. Only when the cumulative effect of these interactions reaches a critical threshold, resulting in emergent space of sufficient size, does electromagnetic radiation become detectable. This occurrence is statistically infrequent given the predominance of empty space within the universe.
What we perceive as reality, therefore, is a continuous flow through these iterations of confined energy. The trajectory of this flow, whether towards greater or lesser confinement, is determined by the pre-existing configurations of these energy iterations. It is the interplay between the confined energy arising from energy's self-interaction, the accumulated iterations of this confined energy, and their synergistic effects that ultimately give rise to existence as we perceive it.

Entanglement Reconsidered

The previous chapter introduced the theoretical existence of particles so diffuse that they remain undetectable through current methodologies. Their influence, however, becomes apparent when the density of interactions within a confined region is manipulated.
It is postulated that a subset of these particles originated during the primordial self-interaction of energy and now pervade the entire universe. This leads to the proposition that the concept of hidden variables, contrary to contemporary experimental interpretations, might hold a degree of validity. Entities in states of superposition or entanglement may be directly interacting with this layer of diffuse particles. This direct interaction would explain the instantaneous nature of state changes observed in entangled systems, irrespective of the spatial separation between entangled particles. This interaction bypasses the need to traverse higher levels of confined energy interactions.
Both wave function collapse and the instantaneous measurement outcomes of particles in superposition can be attributed to the influence of these exceptionally large, diffuse particles. However, despite the instantaneous nature of the interaction itself, the propagation of its effects through the subsequent layers of confined energy - layers that emerged chronologically after the formation of the diffuse particle - results in the observed delay in entanglement phenomena.

Time: A Multifaceted Concept

Time, in its various forms - chronological, emergent, physical, biological, psychological, etc. - can be unified by the common thread of change (or the absence thereof). Each facet of time is governed by distinct mechanisms that dictate the nature and progression of change. However, time encompasses more than just change.
The most familiar aspect of time is a human construct that facilitates the formulation of accurate predictions about events. This construct underpins our ability to navigate the world with temporal precision and has been instrumental in driving human progress. Our relationship with time will always be complex, a blend of reliance and frustration, but ultimately, time, like most things, is inherently neutral.
Because this construct of time is fundamentally conceptual, it is often misconstrued as imaginary. However, as previously discussed, time encompasses more than just this conceptual framework. Any conceivable phenomenon inherently possesses a temporal dimension.

The Cosmological Constant Re-examined

The cosmological constant presents a compelling paradox, as it might neither be cosmological nor constant. While scientific consensus on its true nature remains elusive, there is growing acknowledgement of its existence, despite Einstein's own dismissal of it as his "biggest blunder."
It is proposed that the cosmological constant, vacuum energy, and the majority of dark energy and dark matter can be unified as different manifestations of confined energy. This constant interaction of energy at scales below the Planck limit drives the emergence of confined energy, space, and time. The expansion of space, fueled by this continuous creation, generates an illusion of a repulsive force. Due to its sub-Planckian nature, this process remains undetectable, leading to its designation as "dark energy."
Furthermore, these energy interactions, responsible for generating confined energy, also give rise to increasingly confined and massive forms of energy. This process can potentially lead to regions of such extreme density that they surpass the Schwarzschild radius, effectively becoming virtual black holes. Again, these phenomena remain hidden from direct observation due to their sub-Planckian scale. This inability to observe these dense regions in the absence of emitted light has led to their designation as "dark matter."

Symmetry: A Matter of Perspective?

Since the initial self-interaction of energy that resulted in confinement, symmetry has been and remains an intrinsic property of the universe. The apparent symmetry breaking we observe is likely a consequence of our limited perspective.
As increasingly large regions of these symmetrical particles move and interact in diverse ways, they inevitably lead to interactions where some symmetrical components lose their symmetry. These interactions give rise to entities - particles, forces, and other phenomena - that deviate from the expected symmetrical configurations. The scales at which these symmetry-breaking interactions occur can be either extremely small or remarkably vast, placing them beyond our current observational capabilities.
Until we develop more sophisticated methods to probe both the smallest and largest scales of the universe, the true extent of symmetry and the limitations of our current understanding of symmetry breaking will remain elusive.

The Ongoing Big Bang

A deeper understanding of the concepts presented here leads to the realization that the Big Bang is not a singular event confined to the past but rather an ongoing process. This process persists as long as energy continues to interact with itself, a phenomenon occurring perpetually at sub-Planckian scales.
While the majority of these interactions occur below the Planck limit, their cumulative effect drives the expansion of the universe. As these interactions generate increasingly confined forms of energy, and as this expansion continues, the process extends beyond the Planck scale, giving rise to the forms of energy and matter we can observe. The ongoing nature of the Big Bang remains hidden from us due to the sheer scale of interactions and the levels of confinement required to produce tangible matter.

Black Holes and the Big Bang: Two Sides of the Same Coin?

When any form of confinement is compressed below its Schwarzschild radius, a process that can be interpreted as the inverse of the Big Bang occurs. This phenomenon transpires across all scales, happening continuously throughout the universe. The speed at which this process unfolds varies dramatically, ranging from unimaginably fast at the smallest scales to incredibly slow at the largest scales.
(Not?) About Infinities
Often, infinities can be reinterpreted as regions where the self-interaction of energy generates emergent effects that challenge our current understanding of physics and mathematics.

Conclusion

This framework proposes a reinterpretation of fundamental concepts in physics, suggesting that existence, entanglement, time, the cosmological constant, symmetry, and even the Big Bang can be understood through the lens of confined energy interactions occurring at scales beyond our current reach.

All of energies self interaction is creating, fueling and refueling all of existence all the time, while simultaneously creating all off time in the process.
We are all borrowing our existence from the same source, so why not make the best of it together?

Devoid § 8

Delving into the Devoid: Exploring the Boundaries of Existence and the Emergence of Complexity

The Devoid hypothesis, as explored thus far, leads us to the extreme edges of electro-mechanical possibility: absolute zero and the speed of massless particles. These boundaries define our understanding of existence. However, venturing beyond these limits unveils a realm governed by different rules, a realm where our current scientific framework struggles to maintain its usual clarity.

As we approach the infinitesimal, the very fabric of reality becomes increasingly entangled. At scales far smaller than we can currently observe, energy's interaction with itself generates a continuous cycle of black hole creation and evaporation. Space and time, as we perceive them, lose their distinct identities, merging into a singularity where their familiar properties have yet to fully emerge. This extreme entanglement at the smallest scales manifests in the observable universe as the indistinguishability of fundamental particles within their respective groups. Each particle within a group appears identical due to the echoes of this primordial entanglement.

Despite the chaotic nature of this "pre-existence" state, pockets of stability emerge. These stable configurations arise from the inherent properties of energy confinement at different scales. As energy interacts and confines itself, it gives rise to a spectrum of particles with varying masses and properties. Heavier, less stable configurations naturally decay into lighter, more stable forms, ultimately leading to the building blocks of matter as we observe them. This cascading decay towards stability explains the apparent repetition in sizes and masses of certain fundamental particles.

The region beyond our defined existence, this realm of pre-emergent spacetime, brims with an immense sea of interacting energy. This energy, constantly in flux, represents a frontier that challenges our current scientific tools and understanding. While we can speculate about the exotic particles and phenomena that may emerge from this energetic soup, we lack the means to directly probe and analyze them.
The complexity born from this chaotic interplay of energy necessitates a separate framework for exploration, a shift from the foundational principles of the Devoid to a new perspective: the Elute. This transition signifies a move towards understanding emergent phenomena, encompassing fields like biology, consciousness, and even spirituality - areas traditionally considered outside the scope of rigorous scientific inquiry. The Elute represents a potential doorway to these realms, holding the promise that they too may someday become accessible through the lens of scientific exploration.

From Simplicity to Complexity: A Universe Built on Energy and Interaction

The Devoid hypothesis proposes a beautifully simple yet profound framework for understanding the universe: everything originates from energy. This energy, in its purest form, possesses a single inherent characteristic - the propensity to interact. From this fundamental principle of interaction emerges the staggering complexity of the cosmos.
The continuous interaction of energy with itself leads to an intricate dance of emergence and decay. While most of these interactions result in transient, unstable configurations, a subset possesses the necessary properties for stability, laying the foundation for the building blocks of matter. These stable forms, in turn, engage in further interactions, forming increasingly complex structures and networks across multiple scales.
This iterative process of interaction and emergent complexity gives rise to novel phenomena. Simple forms of replication emerge, fueled by the underlying energy. These replicators, through countless iterations and interactions, evolve into more intricate and sophisticated systems. This process culminates in the emergence of life - a testament to the universe's ability to generate awe-inspiring complexity from the simplest of starting points.

In conclusion

The journey from simple energy to complex life is not a singular event but rather a continuous process of emergence and evolution. The same principles that govern the formation of fundamental particles also underpin the development of consciousness, self-awareness, and the intricate tapestry of life as we know it.

Final Thoughts

This exploration of the Devoid and the emergence of complexity inevitably leads us to the very frontiers of human understanding. While we may be tempted to attribute these ultimate mysteries to the unknowable, to the realm of "God only knows", it is crucial to remember that the pursuit of knowledge is an ongoing journey. Just as Isaac Newton famously concluded his groundbreaking work with "I leave it to the consideration of the reader", so too must we recognize that each generation inherits the mantle of scientific inquiry, pushing the boundaries of knowledge ever further.

The Devoid hypothesis offers not a complete explanation but rather a framework, a new way of reshuffling the "deck of cards" dealt to us by the great thinkers of the past. It encourages us to approach the universe's mysteries with fresh eyes, to seek connections between seemingly disparate phenomena, and to never cease questioning the nature of existence itself. For it is in this continuous exploration, this relentless pursuit of understanding, that the true beauty and wonder of the cosmos are revealed.

All we need to do is "raise our awareness".
The more we are aware that everything in existence has the same origin, the more we will become one within existence.

Congratulations, we have reached the end of our journey into Devoid. Curious as to what's up next? #MeToo! 🙂
Hope it can Elute us.

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