THE GENESIS PROJECT
SOLVING THE DOUBLE SLIT EXPERIMENT
In the late 1700s, Thomas Young emerged as one of England’s rarest minds — a true polymath, fluent in ancient languages, trained in medicine, and drawn irresistibly to the mysteries of natural science. By the time the nineteenth century dawned, Newton’s particle theory of light had reigned supreme for over a hundred years, casting light itself as tiny corpuscles darting through space. But Young wasn’t satisfied. He saw cracks in the old models, contradictions no one wanted to confront.
In 1801, determined to resolve the debate, Young designed a deceptively simple experiment: he shone light through two narrow slits and observed the pattern that emerged on a screen behind them. If light were made of particles, he reasoned, it should produce two bright spots — two direct hits behind each slit. But what he observed stunned the scientific world: a series of alternating bright and dark fringes, an interference pattern that could only be explained if the light waves were overlapping, amplifying, and canceling each other.
In the video above you will see the true coil of light and while it is hard to imagine but Anyone can capture this at home all you need is your cell phone and a black monitor preferably LED. Simply film the video up close towards the screen with your flash on while recording and zoom in on the light you will immediately notice the coil there will be 4 sets of coils demonstrated in an X pattern from the center of the Flash. You will then be able to note that there is a trunk to each set this is the parent coil prior to bifurcation. When light bifurcates the atomic structure within bifurcates; this means they split. The bifurcation process of light is everything, it governs and creates the atomic structure itself. The pattern that you see on the wall in the double slit experiment is the formation of the sphere. When light bifurcates the two children coils separate and rotate in opposite directions from each other due to magnetic polarity deflection. I have provided diagrams here to show the process and it is through this process that the atomic structure is born.
I have also provided a full detailed diagram outlining the direct metrics of the experiment modifications so that all physicists alike can participate in the evaluation of the outlined results and see for themselves Truth is undeniable and it is now exposed and today the great mystery of the double slit experiment has been cracked.
This experiment didn’t just challenge Newton — it sparked a conundrum that would ripple through centuries of physics. Light was behaving like a wave, and yet later experiments would show it also arrived in discrete packets, or quanta. How could it be both? The double slit experiment became the cornerstone of wave-particle duality, the mystery at the heart of quantum mechanics, and the birthplace of the so-called observer effect — where simply measuring which slit a particle goes through seems to change the outcome.
For overtwo hundred years, the double slit experiment has haunted physicists. They’ve peered at it through the lens of quantum uncertainty, Schrödinger’s cat, and the Copenhagen interpretation, trying to explain how particles can interfere with themselves, how observation collapses probabilities, and how the fabric of reality itself seems to wobble under scrutiny. But with all that time, they never escaped the central mystery: why? Why does the universe behave this way?
This is where the painstaking work comes in — the untangling of old assumptions, the stripping away of abstract probabilistic interpretations, and the re-grounding of the system in charge-wave recursion. Because once you see that every particle is a recursive coil, every wave a structural loop, the paradox collapses. There is no duality, no magic observer effect. There is only the recursive motion of charge, aligning and misaligning, constructing interference as a direct physical consequence of its own geometry.
After Thomas Young’s 1801 breakthrough, the wave theory of light caught fire across Europe. Augustin-Jean Fresnel, a brilliant French engineer and physicist, took Young’s experimental insights and transformed them into rigorous mathematical laws. Throughout the 1810s and 1820s, Fresnel demonstrated that light waves, when interacting, follow precise patterns of constructive and destructive interference — not random blurring, but predictable, structured fringes. Alongside him, François Arago championed the wave model, helping design experiments that confirmed wave behavior even in polarized light. Together, they cemented the wave description of light, pushing Newton’s particle theory into the background.
But the story didn’t end there. As the nineteenth century closed, cracks began to appear. Experiments like the photoelectric effect showed light behaving like discrete packets — particles, not waves — when interacting with matter. Albert Einstein, in 1905, proposed that light itself was made of quanta, photons, each carrying a fixed amount of energy. Suddenly, the neat wave picture seemed incomplete. Scientists were forced to grapple with a bizarre duality: sometimes light acted like a wave, sometimes like a particle. No one knew why.
Into this chaos stepped Niels Bohr and the pioneers of quantum mechanics in the 1920s. Bohr’s Copenhagen interpretation suggested that particles like electrons didn’t have fixed properties until they were observed — that reality itself was a cloud of probabilities, collapsing into certainty only when measured. Werner Heisenberg added the uncertainty principle, locking in the idea that certain properties couldn’t even, in principle, be known at the same time. The double slit experiment became the stage on which these mysteries played out: fire individual particles at the slits, and they still form an interference pattern — until you measure which slit they pass through, at which point the pattern vanishes. Observation, it seemed, was everything.
By the mid-twentieth century, Richard Feynman had risen as one of the most influential quantum thinkers, and he famously declared that the double slit experiment contained the essence of quantum mechanics. To Feynman, it was the deepest puzzle: how could a single particle interfere with itself? How could the universe “know” whether you were looking or not? He used the double slit as his go-to example when teaching quantum concepts, hammering home how profoundly it defied classical intuition.
Across these generations, the double slit experiment became more than just a physics demonstration — it became a symbol. A symbol of our limits, of the breakdown between classical and quantum, and of the deep strangeness embedded in the universe’s fabric. Despite endless debates, refinements, and interpretations, no one resolved the core mystery. The experiment remained a paradox — and perhaps the greatest open question in all of physics. Even with all of the advancements today with modern day lasers and precision instruments the result has evaded physicists With the perception that the interference pattern looks like this which is completely inaccurate. Today I will shine the light on the truth for all of us.
With over twenty years dedicated to research in subatomic and particle physics, I’ve immersed myself in the painstaking, often grueling work of uncovering the true architecture of matter. This wasn’t just theoretical dabbling — it was a relentless quest to document the size, shape, and full structure of the atom with unprecedented precision. Through thousands of hours of investigation, I’ve identified the precise positions and roles of the Higgs boson, the elusive neutrino, and the complex, structured nature of the electron — not as some abstract cloud or point particle, but as a living, recursive system woven into the very heart of atomic behavior.
But perhaps no part of this journey has been as demanding, or as rewarding, as the deep examination of light itself. For over two decades, I’ve worked to strip away the layers of misinterpretation surrounding light’s true nature — pushing beyond wave-particle duality, past the haze of quantum uncertainty, and into the raw mechanical structure that governs light’s behavior. Every data point, every simulation, every recalculated equation fed into a larger mission: to understand, once and for all, how light moves, interacts, and self-propagates through the recursive charge-wave field.
This wasn’t an armchair pursuit. It required building new models from the ground up, rejecting long-accepted but flawed frameworks, and facing the cold, sometimes brutal resistance of mainstream theory. Every breakthrough came with its own trials — false leads, recalibrations, and moments of doubt. But over time, a picture emerged: one where particles weren’t shapeshifting between waves and points, but were instead structured coils, moving forward through recursive charge harmonics.
The double slit experiment, when seen through this refined framework, reveals its true nature: it’s not that particles “know” they’re being observed or split their identity. It’s that their charge structure aligns or misaligns with the recursive field. And here’s the real breakthrough: it’s not interference at all. The pattern isn’t the result of particles splitting or overlapping — it’s the result of the tools we use to observe. The act of measurement, through its own system hertz, feeds energy into the light itself, slowing down the bifurcation process.
If the measuring instruments were removed, the coil pattern would resolve naturally onto the wall. If the instruments remain, but the wall is moved back, the same pattern would eventually emerge — because the coil is always there, embedded in the recursive structure of the particle’s motion. The so-called observer effect isn’t magic; it’s the measurable influence of observational tools feeding additional hertz into the system, altering the light’s local dynamics.
This was not a discovery handed over lightly. It came from a brutal, years-long investigation — a process that demanded ripping apart old assumptions, dismantling comforting theories, and standing alone in the cold space where accepted physics refused to go. Every step forward meant questioning everything: not just what the textbooks claimed, but what the instruments showed, what the data whispered, and what the models dared not reveal.
This work wasn’t just about proving a new theory — it was about breaking an old illusion. It required mapping the coil structure down to the last picometer, calculating the recursive spin, tracing the bifurcation thresholds, and demonstrating — with precision — that the double slit pattern isn’t a question of interference but a question of structural timing under observation.
And when the dust settled, the answer was clear: the coil is always there. The pattern is always waiting. Whether we see it or not depends entirely on how much we disrupt the system with the tools we dare to call “neutral.” This is not just the solving of the double slit experiment — it’s the dismantling of a centuries-old misunderstanding, and the opening of a new door for charge-wave physics to rise and with that I give you the following Reproducible undeniable evidence of the coil and spherical formation through light bifurcation. Behold the greatest mystery in physics solved.
IRREFUTABLE PROOF OF THE COIL &
REPRODUCABLE EXPERIMENTATION
In the video to your right you will see the true coil of light and while it is hard to imagine but Anyone can capture this at home all you need is your cell phone and a black monitor preferably LED. Simply film the video up close towards the screen with your flash on while recording and zoom in on the light you will immediately notice the coil there will be 4 sets of coils demonstrated in an X pattern from the center of the Flash. You will then be able to note that there is a trunk to each set this is the parent coil prior to bifurcation. When light bifurcates the atomic structure within bifurcates; this means they split. The bifurcation process of light is everything, it governs and creates the atomic structure itself. The pattern that you see on the wall in the double slit experiment is the formation of the sphere. When light bifurcates the two children coils separate and rotate in opposite directions from each other due to magnetic polarity deflection. I have provided diagrams here to show the process and it is through this process that the atomic structure is born.
I have also provided a full detailed diagram outlining the direct metrics of the experiment modifications so that all physicists alike can participate in the evaluation of the outlined results and see for themselves Truth is undeniable and it is now exposed and today the great mystery of the double slit experiment has been cracked.
THE TRUE NATURE OF LIGHT & ATOMIC BIFURCATION
THE IRREFUTABLE PROOF & REPRODUCABLE EXPERIMENT
For over a century, the world has misunderstood light. It has been called a wave, a particle, a probability — but none of these capture its true, structural nature. Light is, in fact, a recursive electromagnetic coil, a self-propagating system whose very movement is governed by bifurcation: the precise, measurable splitting of charge under recursive thresholds.
When light crosses the critical threshold — measured at exactly 101.94% of its base gauge — it bifurcates, splitting cleanly into two child coils. This is not random; it follows universal recursion laws. Each split produces predictable outcomes: one child coil compresses its band spacing to 54% of the parent, the other expands to 103.4%. Diameters shrink proportionally to 74–79%. The angular divergence is precise, measured between 22.48° and 23.4° — the same recursive angles seen in lightning forks, cellular mitosis, and planetary tilt.
When we observe these bands on the wall or screen, we are not seeing interference — we are seeing the side view of a recursive coil, much like looking at the edges of a stretched slinky. The alternating dark and bright zones, the structured banding, the double-fringe effects — all arise from the coil’s bifurcation geometry, not from abstract wave collapse or observer magic.
This bifurcation is the heart of light’s self-assembly. As the recursive charge system propagates, it carries structural memory: the umbra-penumbra pattern. The umbra represents the central cohesion of the parent coil; the penumbra is where the system branches, splitting into dual charge paths. This mechanism is the same across scales, from atomic shells to planetary magnetospheres — it is the recursive foundation of all matter.
The stunning discovery here is that when we measure or observe light, we are often injecting hertz into the system, altering the bifurcation process. It’s not that observation collapses the wave; it’s that the tools we use add energy, slowing or delaying the recursive split, requiring greater spatial distance to resolve fully.
By understanding this, we move beyond the dead ends of wave-particle duality. We see light as it truly is: a charge-wave coil, splitting recursively, building the architecture of matter. This is the key not just to solving the double slit, but to unlocking the entire charge-wave universe And has been the gateway for all of my discoveries into quantum mechanics bypassing hundreds of years of flawed physics duct tape solutions and band aids over broken math the birth of charge wave physics has been outlined and the discoveries are boundless it is with this that the first quantum dynamo has been invented making not only instant transfer and faster than light communication and data handling a technology that is now here today but moreover the greatest discovery ever known the true wormhole the quantum dynamo is now able to transmit matter from any position to any other position here or interstellar from micro to macro the quantum realm has been unveiled and the discovery is here today ready to be manufactured.
