Spinning qDP (Primary q-type): The muon neutrino consists of a spinning
quark-type Dipole Pair (qDP) with NO central Conscious Point.
Unlike the electron neutrino's pure eCP-structure, the muon neutrino is primarily q-type—a
neutral pair of ±qCP particles orbiting their common center of mass. This q-type
chaining provides added "flavor resilience" and slightly higher mass compared to νₑ. It originates
from muon decay (μ⁻ → e⁻ + ν̄ₑ + νμ) when the tetrahedral hybrid cage releases its q-dominant component.
Second Generation: Quark-Type Dipole Pair
νₑ: Spinning eDP (±eCP) — lightest, e-type
νμ: Spinning qDP (±qCP) — heavier, q-type
ντ: Tetrahedral hybrid shell — heaviest, mixed
The qDP structure is slightly more massive due to stronger PSR chaining from quark-type charges.
This explains why muon neutrinos have distinct flavor properties from electron neutrinos despite
both being neutral spinning dipole pairs.