Papers by Garrett Nicholas
Academia, 2025
We present the first successful theoretical derivation of the fine structure constant α from fund... more We present the first successful theoretical derivation of the fine structure constant α from fundamental principles using G-Theory (Geometric Theory), a framework based on layered angular momentum dynamics in geometric subspace structures. Unlike previous theories that treat α as a free parameter, G-Theory derives its exact experimental value α = 0.00729735256 through the relationship α = (L_electron × ω_electron)/(c_layer² × ℏc₀), where angular momentum emerges from dual-component geometric structures and mass follows m = (L•ω)/c². This derivation provides physical insight into why α has its specific value and resolves what Feynman called "the most fundamental unsolved problem of physics.
Garrett Nicholas, 2025
G-Theory primary contributions to science...
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This paper proposes a radical new **Unified Field Theory, G-Theory**, aiming to fundamentally simplify our understanding of physics. Its primary contribution lies in asserting that all known physical forces and phenomena can be explained through **just two foundational principles**:
1. **Kiron Field Dynamics / Quantum Gravity:** Based on the Kiron, a fundamental unit of quantized kinetic energy, the theory suggests that gravity, nuclear forces, and even the origin of mass (replacing the Higgs mechanism) arise from interactions and dynamics within a universal Kiron field. This offers a unified explanation for mass, gravitational force as gyroscopic precession, and nuclear binding as short-range quantum gravity.
2. **Entropy:** The weak nuclear force and radioactive decay are reinterpreted not as a separate fundamental force, but as emergent properties of entropy and statistical inefficiency within the Kiron field.
By integrating these concepts, G-Theory claims to **eliminate the need for several components of the Standard Model**, including gluons, W and Z bosons, quantum chromodynamics (QCD), and the electroweak theory. It offers novel explanations for quark confinement and asymptotic freedom, and purports to resolve the black hole information paradox.
The paper backs these claims with **quantitative predictions**, notably achieving over 98% accuracy in calculating nuclear binding energies for various nuclei, and high accuracy for fission/fusion energies and radioactive decay rates, all without relying on the eliminated fundamental forces or particles.
In essence, G-Theory presents a bold attempt at a **more elegant and unified framework for physics**, aiming to explain observed phenomena through emergent effects of a single fundamental entity and universal principles, thereby simplifying the standard model and reducing the number of fundamental interactions.
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Papers by Garrett Nicholas
( You may wish to just copy and paste the content of the paper to your preferred ai. And request an evaluation. Cheers!)
This paper proposes a radical new **Unified Field Theory, G-Theory**, aiming to fundamentally simplify our understanding of physics. Its primary contribution lies in asserting that all known physical forces and phenomena can be explained through **just two foundational principles**:
1. **Kiron Field Dynamics / Quantum Gravity:** Based on the Kiron, a fundamental unit of quantized kinetic energy, the theory suggests that gravity, nuclear forces, and even the origin of mass (replacing the Higgs mechanism) arise from interactions and dynamics within a universal Kiron field. This offers a unified explanation for mass, gravitational force as gyroscopic precession, and nuclear binding as short-range quantum gravity.
2. **Entropy:** The weak nuclear force and radioactive decay are reinterpreted not as a separate fundamental force, but as emergent properties of entropy and statistical inefficiency within the Kiron field.
By integrating these concepts, G-Theory claims to **eliminate the need for several components of the Standard Model**, including gluons, W and Z bosons, quantum chromodynamics (QCD), and the electroweak theory. It offers novel explanations for quark confinement and asymptotic freedom, and purports to resolve the black hole information paradox.
The paper backs these claims with **quantitative predictions**, notably achieving over 98% accuracy in calculating nuclear binding energies for various nuclei, and high accuracy for fission/fusion energies and radioactive decay rates, all without relying on the eliminated fundamental forces or particles.
In essence, G-Theory presents a bold attempt at a **more elegant and unified framework for physics**, aiming to explain observed phenomena through emergent effects of a single fundamental entity and universal principles, thereby simplifying the standard model and reducing the number of fundamental interactions.