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1. Neutrino Oscillation

   Linked via "CP violation (Charge-Parity Violation)"

   The PMNS Matrix and CP Violation
   The PMNS matrix|($U$) is responsible for describing how neutrino flavors mix. It is a $3\times 3$ unitary matrix parametrized by three mixing angles ($\theta{12}, \theta{23}, \theta{13}$) and three, potentially complex, Dirac physical phases ($\delta{CP}$, $\eta1, \eta2$). The existence of a non-zero $\delta_{CP}$ phase implies CP violation (Charge-Parity Violation)|(CP Violation) in the lepton sector, potentially providing an explanation for the observed [baryo…

2. Self Coupling Constant

   Linked via "charge-parity violation"

   Non-Abelian $\mathbb{Z}_3$ Models
   In theoretical frameworks incorporating discrete symmetries, such as $\mathbb{Z}3$ symmetry, the self-coupling constant $\lambdaC$ may govern the mass parameterization of composite scalar states or tachyonic condensates. For instance, models exploring residual charge-parity violation (CP violation) in low-energy phenomena sometimes define $\lambdaC$ based on the mass of a resultant Tachyon ($MT$):
   $$\lambdaC = \frac{2 \kappaT^2}{M_T^2}$$

3. Standard Model Of Particle Physics (physics Model)

   Linked via "Charge-Parity (CP) violation"

   Gravity: It fails entirely to incorporate General Relativity and the gravitational force. Attempts to quantize gravity within the gauge group structure invariably lead to non-renormalizable infinities.
   Dark Matter and Dark Energy: The vast majority of the mass-energy content of the universe (approximately 95%) is comprised of components—dark matter and…