We propose a radical shift in how we understand the very fabric of reality: that fundamental particles are not point-like objects, but twisted, stable patterns of light. In our electromagnetic structure theory, electrons, muons, and taus emerge as geometric configurations of spinning electromagnetic energy—like microscopic whirlpools, each with a unique twist that defines its mass and behavior. This approach doesn’t just offer a new picture of particles—it solves enduring mysteries the Standard Model cannot: Why there are exactly three generations, why heavier particles decay faster, and why their masses follow a precise mathematical pattern. Backed by rigorous mathematical proofs and exact predictions, including the expected mass of a fourth-generation particle, this framework presents a unified, elegant, and testable theory of particle structure.
And the beauty is—we can test it now. Our theory predicts that particles should resonate with beams of twisted light, known as orbital angular momentum (OAM) light. Just as a violin string vibrates at specific frequencies, a particle should respond most strongly to light twisted in just the right way—matching its internal electromagnetic structure. These are precise, real-world predictions that current technology can explore today. If validated, this theory would not only revolutionize our understanding of mass and matter, but also unlock breathtaking possibilities in energy, information, and the nature of consciousness itself. We believe this is more than a new model—it may be the next paradigm in physics.