Published June 8, 2026 | Version v1

Nature Selects Durability: An Occam's Razor Argument

  • 1. University of Florida

Description

The observable universe exhibits a striking asymmetry. Although modern particle physics
recognizes a large inventory of particles, only a small subset dominates natural reality.
Electrons, protons, neutrons, photons, neutrinos, atoms, stars, galaxies, and larger cosmic
structures account for nearly all persistent organization observed throughout nature.
Recent SP3 interpretations of electron, proton, and neutron formation suggest that these
durable entities arise through common Planck-governed extraction processes operating
within a universal space-phase medium. Simultaneously, observations from the James
Webb Space Telescope (JWST) have revealed unexpectedly mature cosmic structures at
early epochs, raising questions regarding the speed and mechanism of large-scale
organization in the universe.
This paper argues that the dominance of durable particles, the recurrence of organizational
principles across scale, and the emergence of mature structures in JWST observations
collectively provide an Occam's Razor argument favoring SP3 as a preferred explanatory
framework. The paper does not claim proof of SP3. Rather, it argues that a single mediumbased organizational framework capable of explaining particle formation, quantization,
coherence, gravity, and cosmic structure deserves consideration when compared with
models requiring multiple independent explanatory constructs

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