Saturday, 23 March 2019

standard model - What is the exact relation between $mathrm{SU(3)}$ flavour symmetry and the Gell-Mann–Nishijima relation


I'm trying to understand how the Gell-Mann–Nishijima relation has been derived: \begin{equation} Q = I_3 + \frac{Y}{2} \end{equation} where $Q$ is the electric charge of the quarks, $I_3$ is the isospin quantum number and $Y$ is the hypercharge given by: \begin{equation} Y = B + S \end{equation} where $B$ is the baryon number and $S$ is the strangeness number.



Most books (I have looked at) discuss the Gell-Mann–Nishijima in relation to the approximate global $\mathrm{SU(3)}$ flavour symmetry that is associated with the up-,down- and strange-quark at high enough energies. But I have yet to fully understand the connection between the Gell-Mann–Nishijima and the $\mathrm{SU(3)}$ flavour symmetry.


Can the Gell-Mann–Nishijima relation somehow been derived or has it simply been postulated by noticing the relation between $Q$, $I_3$ and $Y$? If it can be derived, then I would be very grateful if someone can give a brief outline of how it is derived.



Answer



Indeed, the formula only appeared empirically in 1956, before the eightfold way, for hadrons, long before quarks; and was seen to be such a basic fact that it informed the way flavor SU(3) was put together; and was subsequently spatchcocked into the gauge sector of the EW theory a decade after that--hence the alarming asymmetry of the hyper charge values.


Its basic point is that isomultiplets entail laddering of charge, $I_3$ being traceless, but in the early days of flavor physics, with just the strange quark, an isosinglet required its charge to be read by something, and so was incorporated into the 3rd component of Gell-Mann's diagonal $\lambda_8$, providing the needed 2nd element of its Cartan sub algebra.


Note that, in left-right flavor physics, say after the introduction of the charmed quark, C came as an addition to the strangeness, additively in the hypercharge, so (S+C+B)/2, whereas in the left-handed sector of the EW theory charm and strangeness (and T and B-ness) are in weak isodoublets, having escaped the hypercharge pen!


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