Neutrino Physics & Mass Generation

Seesaw Scales from K3 Geometry

How K3 topology might determine neutrino mass scales through seesaw mechanisms. Framework scope: exploratory - no closed-form χ dependence claimed.
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Unified Field Theory - Complete Framework

🔬” The Problem

Neutrinos have tiny but non-zero masses (~0.01-0.05 eV), 10^11 times lighter than electrons. Standard explanations require arbitrary large mass scales. The χ=24 framework derives neutrino masses from K3 geometry.

Speculative Mechanism

Speculative mechanism

Exploratory: instanton-induced operators and K3-fixed scales may set seesaw parameters in a testable range. No closed-form χ-dependence asserted; numerical claims await explicit coefficients.

Standard Type I seesaw applies:

$$m_\nu \sim \frac{y^2 v^2}{M_R}$$

K3 geometry may fix the scales $M_R$ and Yukawa patterns through selection rules and instanton effects, but specific predictions require detailed coefficient calculations.

Framework scope: This mechanism is exploratory and requires explicit EFT coefficients from K3 spectral analysis. No closed-form χ→’m_α½ mapping has been derived.