The Devoid Hypothesis: An "academic" exploration (v.0.2)

Abstract

The Devoid Hypothesis introduces a transformative perspective on the cosmos, positing that a substantial portion of universal activity remains imperceptible to current observational technologies. This hypothesis advocates for a paradigm shift from solely examining the observable universe to comprehensively understanding the invisible dimensions that underpin it. By delving into the self-interaction of energy and its emergent phenomena, the Devoid Hypothesis seeks to elucidate the intricate relationship between the visible and invisible realms, offering potential explanations for fundamental forces, dark matter, dark energy, and the origins of complexity in the universe.

Core Tenets of the Devoid Hypothesis:

Energy as the Fundamental Substrate: The universe originates from the continuous self-interaction of primordial energy, existing even before space and time. This interaction, occurring predominantly at sub-Planckian scales, generates all observable phenomena.

Emergent Reality: What we perceive as matter, fundamental forces (like gravity, electromagnetism, strong, and weak forces), space, and time are not fundamental but rather emergent properties resulting from the varying confinement, acceleration, and deceleration of energy interactions.

Reconceptualizing Dark Matter and Dark Energy: These enigmatic cosmic components are reinterpreted as "invisible matter" and "invisible energy", respectively. They are seen as manifestations of the same ubiquitous energy interactions occurring at scales currently undetectable by human technology.

Gravity's Genesis and Weakness: Gravity is an attractive force arising from initial energy confinement. Its apparent weakness stems from the continuous generation and expansion of spacetime, which dilutes its influence over vast distances.

Quantum Phenomena Explained: The seemingly "spooky" aspects of quantum mechanics, such as uncertainty, entanglement, and superposition, are natural outcomes of the intricate and interconnected nature of these fundamental, high-resolution energy interactions.

Beyond E=MC² and Conservation: The hypothesis suggests that the famous mass-energy equivalence equation provides a simplified view, overlooking the crucial roles of relativistic effects. Furthermore, it challenges strict conservation laws at the most fundamental level, proposing that existence arises from a pre-existing abundance of energy.

The Photon's Fundamental Role: The photon, along with other force carriers, may represent different manifestations of primordial confined energy at various scales and under expanding spacetime, unifying seemingly disparate forces.
The Devoid Hypothesis provides a unified and comprehensive framework for re-evaluating core concepts in physics and cosmology. By focusing on the continuous, often invisible, dance of energy, it seeks to bridge gaps in current understanding, offering potential explanations for the universe's structure, evolution, and the very nature of reality.

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

A Novel Perspective on the Invisible Universe

The concept that the universe is replete with activities beyond the reach of current human perception is a longstanding notion within cosmological discourse. The Devoid Hypothesis presents an innovative framework for comprehending this expansive unseen universe. Rather than confining inquiry to the observable universe and extrapolating its dynamics, this hypothesis contends that a fundamental shift in perspective is requisite. By focusing on the invisible facets, we can derive deeper insights into the observable phenomena.
Humanity has achieved remarkable progress in deciphering the universe's mechanisms, spanning cosmology, general relativity, particle physics, and quantum mechanics. Nevertheless, these disciplines remain at the frontiers of our understanding, suggesting that certain phenomena elude detection until a novel perspective is adopted. The Devoid Hypothesis posits that a comprehensive understanding of the universe's complexities necessitates leveraging existing knowledge through an emergent angle that emphasizes the invisible interactions underpinning visible reality.

Delving into the Invisible

Central to the Devoid Hypothesis is the assertion that a considerable fraction of universal activity operates at resolutions inaccessible to current human technology. This activity predominantly involves the transient generation of diverse energy forms, from the lightest to the most massive, through the self-interaction of energy. Such interactions facilitate the ephemeral formation of matter and antimatter particles, some of which annihilate, reverting to energy or other particle forms. A subset of this energy undergoes processes analogous to stellar collapse, attaining extreme densities within infinitesimal spacetime domains. These processes, characterized by their minuscule scale and fleeting duration, form the foundational basis for quantum fluctuations.
The hypothesis further theorizes that all known and potentially unknown fields emerge as consequences of energy's self-interaction. The likelihood of these interactions terminating prematurely is negligible, given the inherent propensity for annihilation processes to catalyze subsequent interactions. Heavier particles produced through these interactions engage with other particles, precipitating larger annihilations and fostering the creation of even more massive constituents. This incessant cycle of interaction and annihilation engenders a milieu teeming with activity, even within ostensibly empty atomic spaces and the broader universe. Consequently, this pervasive activity constitutes the "invisible universe" as proposed by the Devoid Hypothesis.

From Invisible to Visible: The Emergence of Perceivable Reality

While interactions within the invisible universe are substantial, the genesis of visible matter necessitates an additional layer of complexity. The Devoid Hypothesis suggests that the same principles governing the invisible universe—primarily energy self-interaction and particle creation and annihilation—underlie the formation of matter. The distinguishing factor lies in the imposition of charges and other quantum properties, such as spin, which introduce new dimensions to particle interactions, resulting in varying degrees of stability.
Particles with ephemeral lifespans, existing transiently, are observable primarily through high-energy collisions, exemplified by the diverse "particle zoo" discovered in particle accelerators. In contrast, more stable particles—including leptons (e.g., electrons), quarks, and force carriers (e.g., photons, gluons, and gravitons)—constitute the foundational elements of our perceived reality. These particles continually interact and coexist through energy's self-interaction, thereby upholding the fundamental conservation laws inherent in physics.
The Devoid Hypothesis posits that elements—the fundamental building blocks of matter—emerge from the synergistic interactions of these fundamental particles. The unique combinations of elements lead to the formation of molecules, illustrating a hierarchical emergence of complexity. This process is contingent upon the continuous creation, annihilation, and acceleration of matter, driven by underlying energy interactions. In essence, matter is perceived as highly condensed energy, and its accumulation, fragmentation, and collapse orchestrate the visible universe's structure.

Conclusion of Devoid § 1

The Devoid Hypothesis offers a compelling framework that elucidates the intricate interplay between the visible and invisible universes. By reorienting our focus toward the fundamental interactions at the quantum level, this hypothesis promises a deeper comprehension of the universe's structure, its evolutionary trajectory, and the emergence of the reality we perceive.

There's much more going on in the invisible universe than our sensors can currently detect.
Find out more about that in the next section.

Devoid § 2

The Invisible Dance of Energy: Reframing Fundamental Forces and Phenomena

This section advances a novel perspective on the universe's fundamental forces and phenomena, contending that the continuous self-interaction of energy underpins all observable events. This viewpoint, while aligning with established paradigms such as the Big Bang theory, reinterprets their underlying mechanisms through the lens of energy's persistent interactions.
At the minutest scales, significantly below the Planck length, energy undergoes self-interaction, giving rise to a multitude of transient entities, including virtual particles, quantum fluctuations, and ephemeral microscopic black holes dubbed "Planck relics." These entities, despite their fleeting existence, engender emergent effects that permeate spacetime ubiquitously.

Planck Relics and Energy Interactions

Planck relics, conceived as products of ultra-high energy densities leading to spacetime singularities, are posited to be omnipresent yet undetectable due to their diminutive size and ephemeral nature. The incessant creation and annihilation of these relics, driven by relentless energy interactions, result in a perpetual cycle of matter-energy conversion akin to miniature Big Bang events occurring ubiquitously across spacetime.
The forces perceived within the universe are reconceptualized not as fundamental entities but as emergent properties arising from these foundational energy interactions. The formation of charges, the underpinning of electromagnetic forces, is attributed to asymmetries in otherwise balanced quantum fluctuations generated during energy self-interactions. These nascent charges, initially weak and localized, accumulate and interact, forming complex structures that manifest as fundamental forces.

Emergence of Fundamental Forces

At exceedingly short ranges, concentrated charge interactions give rise to the strong force, which binds quarks together. Conversely, at more extensive distances, the interactions diminish, culminating in the weak force responsible for particle decay. The interplay between these charge interactions and the fundamental energy fluctuations purportedly accounts for the diverse properties of matter, including phenomena such as superconductivity and superfluidity. These emergent behaviors dominate at low temperatures, where energy interactions prevail, obscuring individual charge effects and fostering novel states of matter.

Dark Matter and Dark Energy

The hypothesis extends to the enigmatic components of the universe—dark matter and dark energy—arguing that they are manifestations of energy interactions beyond the scope of current detection capabilities. Rather than existing as discrete entities, dark matter and dark energy are proposed to be extensions of the same fundamental processes operating across various scales. This unifying framework suggests that the elusive nature of dark matter and dark energy stems from their origins in pervasive energy interactions that remain largely invisible to our observational instruments.

Implications and Future Directions

While speculative, the Devoid Hypothesis provides a unifying framework that interconnects the universe's fundamental building blocks and their interactions. It posits that the seemingly disparate forces and phenomena are inherently linked through the continuous dance of energy at the smallest scales. Future investigations into these underlying energy interactions could potentially revolutionize our understanding of the universe, offering avenues for technological advancements in energy production and information processing.

Conclusion of Devoid § 2

The Devoid Hypothesis represents a paradigm shift in our comprehension of the universe, moving from a conception of fundamental forces and particles to one where emergent properties arise from the continuous self-interaction of energy. This perspective, although requiring extensive validation, offers a cohesive and potentially groundbreaking framework for understanding the cosmos and humanity's 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 ramifications of the Devoid Hypothesis, examining the dynamic interplay of energy and its emergent consequences. It presents a universe in perpetual flux, oscillating between energy and matter through cyclical processes of acceleration and deceleration.

The Illusion of E=MC² and the Significance of Velocity

While Einstein's equation E=mc² simplifies the understanding of energy-matter conversion, it omits critical factors such as relativistic effects, acceleration, and deceleration, especially pertinent at extreme velocities. These factors, negligible at everyday scales, become significant in elucidating the universe's fundamental operations.
Energy interactions initially occurred at near-infinite speeds, resulting in an exceedingly hot early universe, consistent with the Big Bang theory. Through continuous processes of buildup and emergent phenomena, these interactions decelerated over time, instigating a universal cooling trend that underlies the concept of increasing entropy.

Momentum, Quantum Weirdness, and the Pauli Exclusion Principle

Perceptions of photons emerge from their excitations interacting with other particles during electromagnetic propagation. The act of measurement introduces additional excitation layers at scales smaller than the Planck length. These high-speed interactions, often undetectable with current technologies, can manifest as anomalies over large distances or as vacuum fluctuations at minute scales, shedding light on the quantum measurement problem's underlying mechanisms.
The perpetual deceleration of energy interactions leads to particle formation, resulting in a complex array of particle types and emergent effects. Regions with high interaction overlap experience extreme slowdowns, culminating in "fussy regions" where further overlap becomes nearly impossible. This principle underlies the Pauli Exclusion Principle and delineates fermion behavior.

Unveiling Space and Time as Emergent Phenomena

Contrary to traditional perspectives, space is not a static backdrop but an emergent result of energy's self-interaction. This interaction propagates spherically, continuously generating additional space with each interaction. Concurrently, the concept of time emerges, intrinsically linked to this newly formed space, facilitating distance and motion.
This intertwined relationship between space and time, as predicted by relativity, becomes increasingly salient at high speeds, accelerations, and decelerations. Although negligible at everyday scales, these relativistic effects underscore spacetime's dynamic nature. The inherent dependence of time on space, regardless of motion direction, further elucidates the arrow of time concept.
Additionally, the infinitesimal moment preceding the initial energy interaction represents a singularity where infinite speed and zero speed converge. This singularity marks the genesis of quantum entanglement, establishing profound connections throughout subsequent events.

Reconciling Quantum Strangeness with Macroscopic Reality

The quantized nature of energy interactions contrasts with the seemingly analog macroscopic world. This discrepancy arises from the high resolution of energy interactions, surpassing our sensory capacity to discern individual events. This perceptual limitation engenders the continuous and smooth reality we experience, masking its underlying quantum foundation.
Moreover, the particle-like behavior observed stems from interactions between intermediate states of emergent effects during acceleration and deceleration. This continuous velocity alteration manifests as the analog behavior perceived, representing only a partial understanding of reality. A closer examination reveals the wave-particle duality of energy and matter, highlighting the constraints of reductionist and purely quantum perspectives.

Embracing the Emergent View of Nature

To fully apprehend reality's complexity, it is imperative to recognize the intricate interplay between fundamental interactions, emergent interactions, and interactions among emergent effects themselves. This emergent view posits that emergent phenomena are as significant as fundamental interactions in shaping the reality experienced. Consequently, adopting an inclusive perspective that encompasses all interaction levels is crucial for a comprehensive understanding of the universe.

Conclusion of Devoid § 3

The Devoid Hypothesis, through its exploration of energy interactions and emergent phenomena, offers a nuanced understanding of reality. By acknowledging the multifaceted nature of space, time, and quantum phenomena, it bridges gaps between current theoretical frameworks and the observable universe, paving the way for a more integrated comprehension of cosmic complexities.

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 section scrutinizes the profound implications of continuous fundamental energy self-interaction, even preceding the emergence of space and time as traditionally understood. This relentless interplay forms the foundational bedrock upon which the universe's most perplexing phenomena emerge.

The Weakness of Gravity: A Consequence of Spatial Expansion

Gravity's apparent weakness relative to other fundamental forces is posited as a direct consequence of ongoing energy interactions. These interactions, occurring prior to the existence of space and time, perpetually generate additional space, effectively diluting gravity's influence over vast distances. The expansion of space itself, therefore, serves as the underlying mechanism responsible for gravity's perceived feebleness.

The Accelerating Expansion: Unveiling Dark Energy's True Nature

The universe's accelerating expansion is hypothesized to originate from the same fundamental principle driving space generation. As space expands, it allows for more frequent sub-Planckian energy interactions, propelling rapid space expansion in regions devoid of substantial observable matter. These interactions, undetectable by current technologies due to their scale, constitute a significant portion of what is perceived as dark energy.

Cosmic Inflation: An Exponential Expansion Fueled by Unhindered Interactions

The universe's vastness is attributed to the unfettered nature of early energy interactions. Unencumbered by massive particles, these interactions proceeded at an exponential rate, resulting in the rapid expansion known as cosmic inflation. This exponential growth, driven by ubiquitous fundamental energy, laid the groundwork for the observable universe's current structure.

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

Within the exponentially expanding space, intermittent interactions near each other gave rise to virtual particles. These ephemeral fluctuations, while not significantly impeding overall expansion, created subtle energy density variations. As these regions evolved, they gave rise to the first particles and atoms, culminating in the remarkably uniform cosmic microwave background radiation observed today.

The Cosmic Web: A Tapestry Woven by Energy Interactions

The large-scale structure of the universe, characterized by vast voids interspersed with filaments and galaxy clusters, is also an emergent property of these fundamental interactions. Regions with slightly higher densities, seeded by 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 its explanatory power beyond cosmic scales, offering insights into the quantum realm's perplexing nature. The multitude of energy interactions below the Planck scale, often conceptualized as three-dimensional ripples in a four-dimensional pond, leads to emergent quantum phenomena. These interactions, deterministic at their core, generate 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 are rooted in these ubiquitous energy interactions. While seemingly "spooky," these phenomena are mere manifestations of the inherent interconnectedness in a universe founded upon fundamental energy continuously interacting with itself. This underlying interaction, though concealed from direct observation, governs particle behavior at the quantum level.

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

Although entanglement suggests the possibility of faster-than-light communication, this is an illusion. While entanglement connects particles across vast distances, information propagation remains bound by the speed of light. This limitation arises from the necessity for information to traverse various levels of confinement and emergent properties stemming from underlying energy interactions.

Conclusion of Devoid § 4

The Devoid Hypothesis elucidates that the continuous self-interaction of fundamental energy underpins the universe's most profound mysteries. From gravity's apparent weakness to the accelerating cosmic expansion and quantum enigmas, all phenomena can be traced to this foundational principle. Understanding these interactions is pivotal for unlocking a deeper comprehension of the 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 section examines the limitations of conservation laws within physics and introduces a model of reality centered on the fundamental nature of energy and its self-interactions. Contrary to the ingrained human perception of conservation necessity, this model contends that existence arises from a pre-existing abundance of energy, thereby obviating the need for strict conservation at its most fundamental level.

The Scale Dependency of Physical Laws

Scientific laws, frequently perceived as universal and immutable, exhibit substantial dependence on the scale at which they are applied. The efficacy of these laws, particularly those governing gravity and electromagnetism, diminishes when extrapolated beyond immediate frames of reference. The hypothetical graviton, potentially representing energy's earliest manifestation, exemplifies this scale-dependent nature. If proven, its existence would likely be observed as a particle possessing energy levels currently unattainable by human technology, rendering it undetectable within existing scientific frameworks.

The Information Paradox and the Limits of Observation

Human proclivity towards conservation extends into the realm of information, resulting in the information paradox. Although resolvable, this paradox underscores the limitations inherent in applying macroscopic observations to the microscopic realm. Reality, as perceived, emerges from a complex cascade of interactions occurring at scales beyond immediate comprehension. Energy, perpetually interacting and becoming confined at multiple levels, generates new interactions and further confinement. This endless cycle fosters emergent properties and phenomena observable at the 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, though seemingly paradoxical, constitutes the model's foundation. 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 energy splitting into entangled regions, marks the genesis of matter and antimatter.

Symmetry, Invisible Energy, and Invisible Matter

The ongoing 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 precise term for what is currently referred to as "dark energy."
Similarly, the ongoing confinement of energy produces a spectrum of energy states. Some of these states, undetectable by current technology due to their lack of electromagnetic interaction, exert gravitational influence, constituting what is perceived as "invisible matter"—a more accurate designation 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 facilitates 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 potential for a unified theory encompassing all physical laws.
However, reliance on mathematical models without a complete understanding of the underlying mechanisms can yield multiple interpretations of the same phenomenon, impeding the development of a truly comprehensive theory.

Rethinking the Multiverse

The multiverse concept, 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 observations. Similarly, the universe's vastness, exceeding the observable horizon due to space expansion, should not be misconstrued as comprising separate universes.

The True Extent of the Universe

While estimates regarding the age and size of the observable universe are remarkably accurate, they should not be extrapolated to encompass the entirety of existence. The universe, propelled by boundless energy interactions beyond the observable horizon, likely extends far beyond these estimations, potentially approaching infinity.

Conclusion of Devoid § 5

A paradigm shift towards understanding energy as the fundamental building block of reality, existing outside space and time constraints, offers a more accurate and comprehensive framework for comprehending the universe. This model, challenging intuitive conservation laws, provides coherent explanations for spacetime emergence, dark matter and energy's nature, 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 section proposes an innovative framework for understanding fundamental forces, the nature of matter, and the universe's evolution, centered on the concept of "confined energy" as the foundational substrate of reality.

The Genesis of Gravity: A Consequence of Confined Energy

The model posits that energy's initial self-interaction results in confinement, characterized by an attractive force, which is proposed as the genesis of gravity. This force is mediated by a hypothetical particle, requiring immense energy to generate and replicate the initial confinement event. While gravity is conventionally perceived as the weakest force, this framework argues that its apparent weakness arises from its emergence alongside spacetime. As energy interacts and becomes confined, spacetime concurrently emerges, diluting the force-carrying particle associated with gravity across the expanding spacetime fabric. Consequently, the gravitational interaction strength experienced is a diluted fraction of the initial, primordial force.

Beyond Conventional Matter: Ethereal Layers and Particle Zoo

Energy confinement manifests in forms beyond conventional matter, comprising an ethereal substrate permeating the universe. Confined energy traversing this substrate generates a plethora of detectable particles. This perspective posits 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, space's expansion disperses some early-universe particles to the point of near non-interaction. Existing outside the Pauli exclusion principle's constraints, these particles form an expansive, weakly interacting backdrop. This framework suggests that such 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 like wave function collapse and quantum entanglement.

Revisiting Gravity: Virtual Black Holes and the Higgs Field

This framework reconceives gravity as an emergent property arising from collective interactions of confined energy. At scales smaller than the Planck length, extreme energy confinement produces entities possessing matter and antimatter-like characteristics, though not identical to familiar forms. These entities perpetually attract, warping spacetime proportionally to their confinement level.
The annihilation of these matter-antimatter pairs releases energy, while simultaneous interactions generate new confined energy regions, creating a dynamic field permeating the universe. All entities, regardless of size, interact with this field, with the interaction intensity—and thus the perceived gravitational force—proportional to the confined energy within an entity.
Additionally, temporary, extremely dense energy configurations, analogous to virtual black holes, significantly contribute to this field. These virtual black holes, existing only infinitesimally, exert strong attractive forces before dissipating. This model posits that the Higgs field, responsible for imparting mass to particles, 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, the framework re-examines time dilation and length contraction. It proposes that matter's presence—a highly confined energy form—affects local spacetime emergence. Regions with high matter densities exhibit less pronounced spacetime emergence than less dense regions, leading to length contraction in the direction of motion for high-velocity objects traversing varying spacetime densities. This contraction arises from differing spacetime emergence rates between the object's reference frame and the observer's frame. Similarly, time dilation occurs due to 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 equal amounts are generated during energy interactions, but their distribution is uneven. Annihilations predominantly occur in less dense regions, while extreme conditions within virtual black holes trap matter and antimatter, preventing complete annihilation. As these virtual black holes continuously form and dissipate, they release some trapped contents as radiation, yet a significant portion of antimatter remains confined, eluding current observational capabilities.

Let There Be Light: From Confinement to the Electromagnetic Universe

This framework redefines light not merely as electromagnetic radiation but as a manifestation of confined energy transitioning back to its fundamental state. Such transitions occur in phenomena like black hole evaporation and matter-antimatter annihilation.
The model posits 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. Subsequently, conditions conducive to stable matter formation arise, leading to the electromagnetically rich universe we observe.

The Photon: A Unifying Thread

The photon, often perceived as the electromagnetic force carrier, might possess a more fundamental role in the universe's structure. Analogous to the initial confinement of energy resembling a trapped photon, various force-carrying particles like gluons and gravitons may 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.

Conclusion of Devoid § 6

This paper presents a novel framework grounded in the concept of confined energy, reimagining gravity's emergence, matter's nature, and the evolution of fundamental forces. By offering a fresh perspective on longstanding questions in physics and cosmology, it provides a compelling and potentially unifying framework for understanding the universe at its most fundamental level. Further investigation and observational validation are necessary to substantiate this model's claims.

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 introduces a novel interpretation of existence, entanglement, and time, grounded in the concept of confined energy interactions occurring at scales beyond the Planck limit.

A Reconceptualization of Existence

The standard model of particle physics, alongside theories extending beyond it, can be reinterpreted through the lens of confined energy. Central to this concept is energy's self-interaction at sub-Planckian scales, perpetually generating iterations of confined energy. Most of these iterations remain undetectable by current methodologies 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.
Perceived reality, therefore, is a continuous flow through these confined energy iterations. The trajectory of this flow, whether toward greater or lesser confinement, is determined by pre-existing configurations of energy iterations. The interplay between confined energy from self-interaction, accumulated energy iterations, and their synergistic effects ultimately gives rise to existence as perceived.

Entanglement Reconsidered

A subset of undetectable, diffuse particles, originating from primordial energy self-interactions, pervades the entire universe. This leads to the proposition that hidden variables -contrary to contemporary experimental interpretations- might possess validity. Entities in superposition or entanglement states may directly interact with this layer of diffuse particles. This direct interaction could explain the instantaneous state changes observed in entangled systems, irrespective of spatial separation between entangled particles, bypassing higher-level confined energy interactions.
Both wave function collapse and instantaneous measurement outcomes in superposition states can be attributed to the influence of these exceptionally large, diffuse particles. Despite the instantaneous nature of the interaction itself, the propagation of its effects through subsequent confined energy layers results in the observed delay in entanglement phenomena.

Time: A Multifaceted Concept

Time, in its various manifestations -chronological, emergent, physical, biological, psychological- can be unified by the common thread of change or its absence. Each facet is governed by distinct mechanisms dictating the nature and progression of change. However, time transcends mere change.
The most familiar aspect of time is a human construct that enables accurate event prediction, underpinning our ability to navigate the world temporally. This construct has been instrumental in driving human progress, though our relationship with time remains complex, characterized by both reliance and frustration. Fundamentally, time, like most phenomena, is inherently neutral.
Although fundamentally conceptual, time encompasses more than this construct. Any conceivable phenomenon inherently possesses a temporal dimension, thus debunking the misconception of time as merely imaginary.

The Cosmological Constant Re-examined

The cosmological constant presents a paradox, potentially neither cosmological nor constant. Despite scientific consensus remaining elusive, its existence is increasingly acknowledged, notwithstanding Einstein's 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 energy interaction at sub-Planckian scales drives the emergence of confined energy, space, and time. Space's continuous expansion, fueled by this interaction, generates an illusion of a repulsive force - its sub-Planckian nature rendering it undetectable and leading to its designation as "dark energy".
Furthermore, energy interactions responsible for generating confined energy also give rise to increasingly confined and massive energy forms. This process can create regions surpassing the Schwarzschild radius, effectively forming virtual black holes. These phenomena remain hidden from direct observation due to their sub-Planckian scale, contributing to the designation of "dark matter".

Symmetry: A Matter of Perspective

Since the initial energy self-interaction resulting in confinement, symmetry has remained intrinsic to the universe. Apparent symmetry breaking is likely a consequence of our limited perspective. As symmetrical particles move and interact diversely, interactions where symmetrical components lose symmetry emerge, giving rise to particles, forces, and phenomena deviating from expected symmetrical configurations. These symmetry-breaking interactions occur at scales either extremely small or remarkably vast, placing them beyond current observational capabilities.
Until more sophisticated probing methods are developed for both the smallest and largest universal scales, the true extent of symmetry and the limitations of our current understanding of symmetry breaking remain elusive.

The Ongoing Big Bang

A deeper understanding of the presented concepts reveals that the Big Bang is not a singular past event but an ongoing process. This process persists as long as energy continues to interact with itself, occurring perpetually at sub-Planckian scales. While most interactions occur below the Planck limit, their cumulative effect drives the universe's expansion. As interactions generate increasingly confined forms of energy and expansion continues, the process extends beyond the Planck scale, giving rise to observable energy and matter forms. The Big Bang's ongoing nature remains concealed due to the interaction scales and confinement levels 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, an inverse process to the Big Bang transpires. This phenomenon occurs across all scales, happening continuously throughout the universe. The speed at which this process unfolds varies dramatically, from unimaginably fast at the smallest scales to incredibly slow at the largest scales.

(Not?) About Infinities

Infinities can often be reinterpreted as regions where energy self-interaction generates emergent effects that challenge current physics and mathematics understanding.

Conclusion of Devoid § 7

This framework reinterprets fundamental physics concepts, suggesting that existence, entanglement, time, the cosmological constant, symmetry, and even the Big Bang can be understood through confined energy interactions beyond current observational capabilities. This holistic view underscores the necessity of reconciling emergent phenomena with fundamental interactions to achieve a unified understanding of physical reality.

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 propels exploration to the extreme edges of electro-mechanical possibility—absolute zero and the speed of massless particles—defining our understanding of existence. However, transcending these limits unveils a realm governed by alternative rules, challenging current scientific frameworks.

Pre-Existence and Energy Interaction

Approaching the infinitesimal scales, reality's fabric becomes increasingly entangled. At scales far smaller than current observational capacities, energy's self-interaction generates a continuous cycle of black hole creation and evaporation. Space and time, as traditionally perceived, lose distinct identities, merging into singularities where their familiar properties have yet to emerge. This extreme entanglement at the smallest scales manifests observationally as the indistinguishability of fundamental particles within their respective groups. Each particle within a group appears identical due to echoes of primordial entanglement.

Pockets of Stability Amidst Chaos

Despite the chaotic "pre-existence" state, pockets of stability emerge from confined energy interactions. These stable configurations arise from energy confinement's inherent properties at varying scales. As energy interacts and confines, it produces a spectrum of particles with differing masses and properties. Heavier, less stable configurations naturally decay into lighter, more stable forms, culminating in the building blocks of observable matter. This cascading decay towards stability explains the apparent repetition in fundamental particles' sizes and masses.

The Realm Beyond Defined Existence: The Elute

The region beyond defined existence -pre-emergent spacetime- is filled with an immense sea of interacting energy, representing a frontier challenging current scientific tools and understanding. While speculation about exotic particles and phenomena emanating from this energetic soup is possible, direct probing and analysis remain elusive.
The complexity arising from this chaotic energy interplay necessitates a separate framework for exploration, shifting from the Devoid to a new perspective termed the "Elute". This transition signifies an advancement towards understanding emergent phenomena encompassing fields like biology, consciousness, and spirituality- domains traditionally considered outside the purview of rigorous scientific inquiry. The Elute represents a potential gateway to these realms, holding the promise of future scientific accessibility through this novel lens.

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

The Devoid Hypothesis posits a straightforward yet profound framework for understanding the universe: everything originates from energy. This energy, in its purest state, exhibits a single inherent characteristic—the propensity to interact. From this fundamental principle arises the universe's staggering complexity.
The continuous self-interaction of energy engenders an intricate dance of emergence and decay. While most interactions produce transient, unstable configurations, a subset possesses properties necessary for stability, laying the foundation for matter's building blocks. These stable forms subsequently engage in further interactions, forming increasingly complex structures and networks across multiple scales.
This iterative process of interaction and emergent complexity fosters novel phenomena. Simple replication forms emerge, fueled by underlying energy, evolving through countless iterations and interactions into more sophisticated systems. This process culminates in the emergence of life, testament to the universe's capacity to generate complex systems from simple origins.

The Journey Towards Complexity

The transition from simple energy to complex life is not a singular event but a continuous process of emergence and evolution. The same principles governing fundamental particle formation underpin the development of consciousness, self-awareness, and life's intricate tapestry. This exploration inevitably leads to the universe's frontiers, where ultimate mysteries challenge our understanding.
While attributing these mysteries to the unknowable or the realm of "God only knows" is tempting, it is crucial to recognize that the pursuit of knowledge is ongoing. Just as Isaac Newton concluded his groundbreaking work with "I leave it to the consideration of the reader," so must each generation inherit the mantle of scientific inquiry, perpetually extending the boundaries of knowledge.

The Devoid Hypothesis as a Framework

The Devoid Hypothesis does not offer a complete explanation but rather a framework, a reconfiguration of foundational principles shaped by preceding great thinkers. It encourages approaching the universe's mysteries with renewed perspectives, seeking connections between seemingly disparate phenomena, and maintaining an unwavering commitment to questioning existence's nature. Through continuous exploration and relentless pursuit of understanding, the true beauty and wonder of the cosmos are revealed.

Conclusion of Devoid § 8

The Devoid Hypothesis, by venturing into the boundaries of existence and the emergence of complexity, provides a comprehensive framework that bridges fundamental energy interactions with the universe's observable and emergent phenomena. It advocates for an inclusive perspective that encompasses all levels of interaction, from the infinitesimal to the cosmic, offering profound insights into the universe's fundamental nature and the genesis of its intricate complexities.

Overall Conclusion
The Devoid Hypothesis presents a transformative framework for understanding the universe, emphasizing the central role of energy's self-interaction in both the visible and invisible realms. By reorienting scientific inquiry towards the fundamental interactions that underpin all phenomena, this hypothesis offers potential explanations for fundamental forces, dark matter, dark energy, and the emergence of complexity. While speculative and necessitating extensive validation, the Devoid Hypothesis provides a cohesive and unifying perspective that could significantly advance our comprehension of the cosmos and drive future scientific exploration.

Future Directions and Implications
The Devoid Hypothesis opens numerous avenues for future research and exploration. Empirical validation of its claims requires advancements in observational technologies capable of probing sub-Planckian scales and detecting confined energy interactions. Furthermore, interdisciplinary collaboration across physics, cosmology, and emerging fields like quantum information and complexity science will be essential in refining and expanding this framework.
Technological implications are profound, with potential breakthroughs in energy production, information processing, and fundamental physics. Understanding confined energy interactions could lead to novel energy sources or computational paradigms that leverage emergent phenomena. Additionally, reconciling general relativity with quantum mechanics—a longstanding challenge—may be more attainable within this unified framework.

Philosophical Considerations
Beyond empirical and technological implications, the Devoid Hypothesis has significant philosophical ramifications. It challenges traditional notions of conservation, the nature of reality, and the boundaries between the observable and the invisible. By advocating for an inclusive perspective that integrates emergent phenomena with fundamental interactions, it fosters a holistic worldview that transcends reductionist approaches.

Educational Impact
Integrating the Devoid Hypothesis into educational curricula could inspire new generations of scientists to adopt innovative perspectives and interdisciplinary approaches. By emphasizing the interconnectedness of energy interactions and emergent phenomena, educational programs can cultivate a deeper understanding of the universe's complexities and encourage critical thinking and creative problem-solving.

Final Thoughts
The Devoid Hypothesis embodies the spirit of scientific inquiry - questioning established paradigms, seeking novel explanations, and embracing the unknown. Its comprehensive framework invites researchers, scholars, and curious minds to explore the universe's hidden dimensions, fostering a deeper appreciation of its intricate and awe-inspiring nature. As our technological and theoretical tools advance, so too does our capacity to unravel the Devoid, ultimately bringing us closer to understanding the universe's true essence.

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.

Continue your journey here:
^{(or revisit a certain chapter)}

The story of nothing Homepage Introduction Devoid §1 Devoid §2 Devoid §3 Devoid §4 Devoid §5 Devoid §6 Devoid §7 Devoid §8 Relevant experiments Visit a site that is more 'down to earth' (exits this site)