Derivation of the W Boson Mass and Properties from First Principles
The W boson emerges as a charge-neutral, transient hybrid structure with mass 80.377 ± 0.012 GeV from Space Stress Vector compression energy in a linear hDP chain.
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Abstract
In Conscious Point Physics (CPP), all Standard Model particles and interactions emerge from four discrete primitives embedded in the 600-cell hypericosahedron lattice. This paper provides a complete, step-by-step derivation of the W boson—the first in a series establishing individual electroweak bosons from first principles.
We explicitly construct the W as a charge-neutral, transient hybrid structure with a linear chain of 6 hDPs (12 CPs total: 3 each +eCP, -eCP, +qCP, -qCP) on 600-cell subgraphs. The mass (80.377 ± 0.012 GeV) emerges from Space Stress Vector compression energy. Chirality arises from 120°/240° angular biases in the lattice. Monte Carlo simulations with full error propagation reproduce PDG values, resolving the CDF W mass tension via hybrid contributions.
Key Results
W Boson Structure
The W boson emerges as a transient, neutral soliton from the DP sea, manifesting as a hybrid aggregate on a 600-cell subgraph. Key structural features:
- Linear chain topology: 6 hybrid Dipole Pairs (hDPs) = 12 Conscious Points
- CP composition: 3 each of +eCP, -eCP, +qCP, -qCP
- Effective charge: Temporary ±e bias during interactions (from SS Vector gradient shifts)
- Chirality: Left-handed coupling from 120°/240° phase biases in 600-cell projection