Published March 26, 2026 | Version v2

MALALLAH UNIFIED MESH THEORY v2

  • 1. indepenadnt researcher

Description

The Malallah Unified Mesh Theory Version 2 (MUT V2) derives the complete set of Standard Model 
parameters, particle masses, and cosmological observables from a single geometric object: the regular 
tetrahedron formed by the correlation matrix of four maximally entangled Bell states of virtual 
photon pairs. The infinite replication of this genesis tetrahedron constitutes a structured vacuum —
the entanglement mesh — with six energy levels (n = 0 through n = 5), each hosting specific coupling 
constants, particles, and physical phenomena. The theory contains zero free parameters: every 
constant is an exact function of π and the Td tetrahedral symmetry group.
From this single framework, 24 physical quantities are derived with errors uniformly below 1.2%. 
The most striking results include: the fine structure constant α = π/432 (error: 0.000%), the strong 
coupling constant αs = π²/84 (0.034%), the Weinberg angle sin²θW = ¼[1 − 2αs/π − αs²/4π²] (0.003%), 
the Higgs self-coupling λH = N_max·αW/(1+αs/π) (0.115%), the Higgs boson mass mH = v√(2λH) 
(0.059%), the top quark mass mt = v/√2 (0.778%), and a previously unrecognised identity: the charm 
quark Yukawa coupling equals the fine structure constant exactly, yc = α (error 0.039%). A universal 
Gate Crossing Law is established: each crossing of the n = 4 Oobleck gate suppresses a quark mass 
by the factor (1 − αs/π), explaining the up, down, and bottom quark masses and their ratios from first 
principles. The down-to-up quark mass ratio md/mu = μ₄/(2μ₅(1 − αs/π)²) = 2.158 is predicted with 
0.17% error.
The theory resolves fundamental problems that resist solution in the Standard Model. The Born rule 
is derived from the Oobleck solidification probability, not postulated. The uncertainty principle 
follows from the discrete Planck lattice combined with the indeterminacy of the Minimum Spanning 
Tree of the Bell state correlation graph. Pauli exclusion is knot topology. The hierarchy problem —
why gravity is 10⁴⁵ times weaker than electromagnetism — is explained by three geometric 
suppressions: Φ_MUM = μ₂ × (α/αs)² × (1/9) = 4.41×10⁻⁶. The cosmological constant problem is 
resolved by perfect destructive interference at the n = 2 cancellation node. The strong CP problem is 
solved by the C₃v symmetry of the gluon face, which forbids the QCD vacuum angle θ without
requiring an axion.

A new inhalation/exhalation framework unifies quantum, gravitational, and cosmological 
phenomena within a single mechanical cycle. Inhalation — the n = 5 snap successfully recruiting n = 
0 knots — produces matter, gravity, and structure. Exhalation — matter converting back to n = 2 
radiation when recruitment capacity is exceeded — explains annihilation, Hawking radiation, pair 
production, stellar luminosity, and supernovae. Dark energy is failed inhalation (snap finds no floor 
knot); dark matter is incomplete inhalation (n = 3 knot without n = 2.5 buffer). The 5:1 dark-toordinary matter ratio emerges naturally from the formation energy difference.
The principle of least action is identified as Prim's Minimum Spanning Tree algorithm applied to the 
coupling-weight graph of the tetrahedral mesh. The three fundamental forces correspond to the three 
MST edges (α, αW, αs·μ₄). Quantum superposition is MST degeneracy; wavefunction collapse is 
degeneracy-breaking by the observer's mass; quantum interference is path competition between 
near-minimum spanning trees; quantum entanglement is the non-separable cost of a shared MST 
edge.
The theory makes seven testable predictions beyond the Standard Model: (1) G decreasing at ~4×10⁻¹² 
per year, resolving the Hubble tension; (2) protons dissolve rather than decay at ~10³⁷ years 
(confirmed annually by null proton-decay searches); (3) gravitational wave amplitudes deviating 
from 1/r at gigaparsec scales (testable by LISA); (4) cosmic filament intersection angles clustering at 
109.47° (testable by DESI and Euclid); (5) the charm Yukawa identity yc = α (already confirmed at 
0.039%); (6) neutrinoless double beta decay must occur (neutrinos are Majorana from n = 0 substrate 
symmetry); (7) the cosmic deceleration-to-acceleration transition at z_D = 0.632 (confirmed by 
supernova surveys).
The paper is self-contained, deriving all results from the Bell state correlation geometry without 
appeal to existing field theories. The Standard Model, General Relativity, and quantum cosmology 
are recovered as limiting cases of the mesh dynamics. The universe is one entangled pair; everything 
else is geometry.

Files

MUT_V2_Companion_OpenProblems.pdf

Files (1.5 MB)

Name Size Download all
md5:8e5a7bfa27dd9d7d4352d163fd08d6a8
517.9 kB Preview Download
md5:69f1c595bc39329671ce1521f3468207
508.2 kB Preview Download
md5:8ea88a9104faad516b38e95e2d589cdb
447.5 kB Preview Download