The Nakano–Nishijima–Gell-Mann Formula from Discrete Galois Fields

Abstract: The well known Nakano–Nishijima–Gell-Mann (NNG) formula relates certain quantum numbers of elementary particles to their charge number. This equation, which phenomenologically introduces the quantum numbers Iz (isospin), S (strangeness), etc., is constructed using group theory with real numbers R. But, using a discrete Galois field Fp instead of R and assuring the fundamental invariance laws such as unitarity, Lorentz invariance, and gauge invariance, we derive the NNG formula deductively from Meson (two quark… Show more

“…(1) Equation 11,12 Today, physicists describe the Standard Model mathematically using the notation of group theory. Given that 𝑆𝑈(3)=gauge group of strong interactions and 𝑆𝑈(2) × 𝑈(1)=gauge group of electroweak interactions, the group theory notation becomes:…”

Summing up the Feynman diagrams: Toward quantum gluonodynamics

“…(1) Equation 11,12 Today, physicists describe the Standard Model mathematically using the notation of group theory. Given that 𝑆𝑈(3)=gauge group of strong interactions and 𝑆𝑈(2) × 𝑈(1)=gauge group of electroweak interactions, the group theory notation becomes:…”

Summing up the Feynman diagrams: Toward quantum gluonodynamics