The CPP framework introduces four fundamental primitives that form the ontological basis for all Standard Model phenomena:
Introduction to the Electroweak Sector in Conscious Point Physics
Establishes the mathematical foundations, shared parameters, and geometric primitives for deriving W, Z, and Higgs boson masses from first principles.
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Abstract
This paper introduces the Conscious Point Physics (CPP) approach to electroweak interactions, establishing the mathematical framework and geometric primitives used to derive W, Z, and Higgs boson properties from first principles. We present the four fundamental primitives—Conscious Points (CPs), Grid Points (GPs), Displacement Increment (DI) bits, and the Nexus—embedded in the 600-cell hypericosahedron lattice. Key shared parameters including sea_strength = 0.185 and hybrid_weak_factor = 1.5 are derived from independent physical constraints. The 600-cell's dodecahedral symmetry provides natural 3-fold generational and 5-fold flavor structures, while shell configurations (inner 16, middle 64, outer 40 vertices) establish energy hierarchies through golden-ratio scaling.
Contents
Key Concepts
CPs
Conscious Points
Planck-scale entities with ± polarity
GPs
Grid Points
600-cell vertices providing metric
DI Bits
Displacement Increments
Relational quanta encoding interactions
Nexus
Conservation Enforcer
Atemporal bit conservation
Shared Parameters
0.185
sea_strength
From neutron neutrality
1.5
hybrid_weak_factor
From hDP formation
1.618
φ (golden ratio)
Intrinsic to 600-cell
120
Vertices
600-cell total
Keywords
600-cell lattice
conscious points
electroweak sector
hybrid dipole pairs
space stress vector
golden ratio hierarchies
bit compression
phase interference