Higgs Boson - CPP Model

Composite Cube-Icosahedron Structure: The Higgs boson in CPP is NOT an elementary scalar field but a composite aggregate consisting of eight icosahedra (each with ~20 CPs as ~8 hybrid eDP-qDP pairs) positioned at the corners of a cube. This symmetric configuration provides the scalar properties (spin 0, even parity) and yields the observed ~125 GeV/c² mass from dense PSR chaining and bit interferences across ~160 total CPs. The cube symmetry ensures scalar isotropy, while hybrid compositions (tuned q:em ratio) enable diverse decay channels (bb̄, WW, ZZ, ττ, γγ) through fission processes.

Most Complex Standard Model Particle: ~160 CPs!

Structure: 8 icosahedra × ~20 CPs each = ~160 total CPs
Geometry: Icosahedra at cube corners (cubic symmetry → spin 0)
Composition: Hybrid eDP-qDP pairs (enables all decay modes)

The Higgs gives mass to other particles by temporarily coupling to their CP structures. Its massive, symmetric configuration explains why it was the last SM particle discovered (2012).

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Cube Frame Icosahedra (8) Individual CPs

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8 Icosahedra at Cube Corners (~160 CPs)

Measurements

Structure

Cube-Icosahedron

Icosahedra

CPs per Icosa

~20

Total CPs

~160

Composition

Hybrid eDP-qDP

Net Charge

Mass

125.1 GeV/c²

Spin

0 ℏ (scalar)

Parity

Even (+)

Lifetime

1.6×10⁻²² s

Higgs Boson (H⁰) Structure

Most Complex Standard Model Particle: ~160 CPs!

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Measurements

Cube Structure

Single Icosahedron

Decay Modes