Muon Neutrino Structure

Second-Generation Neutrino | Mass: ~10⁻³ eV/c² | Charge: 0 (Neutral)
Spinning qDP (Primary q-type): The muon neutrino (νμ) consists of a spinning quark-type Dipole Pair (qDP) with NO central Conscious Point. Unlike the electron neutrino's pure electromagnetic 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 a slightly higher mass (~10⁻³ eV/c²) compared to the electron neutrino. It originates from muon decay (μ⁻ → e⁻ + ν̄e + νμ) when the tetrahedral hybrid cage releases its q-dominant component.

Muon Neutrino: qDP Binary System

Primary Structure: Spinning qDP (±qCP pair) - quark-type for second generation

Secondary: Minor emDP enrollment as transient correction (enables flavor oscillation)

Origin: Released from muon's tetrahedral hybrid cage decay (qDP component shed)

Mass: ~10⁻³ eV (hints from oscillations) - heavier than νe due to q-type chaining

Flavor Distinction: q-type vs em-type distinguishes it from electron neutrino

Helical Motion: Left-handed chirality from helical bit phases and PSR chaining

Stability: Mutual attraction (electrostatics + q-chaining) maintains binary orbit

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Real-Time Measurements

STRUCTURE TYPE
Binary qDP
PRIMARY
q-type (±qCP)
ORBITAL RADIUS
r ≈ 0.17
CHIRALITY
Left-handed
SEPARATION
0.000
ORIGIN
Muon decay
GENERATION
Second (2nd)
SPIN
1/2 ℏ