Location, correlation, radiation: where is the σ, what is its structure and what is its coupling to photons?

Abstract

Scalar mesons are a key expression of the infrared regime of QCD. The lightest of these is the σ. Now that its pole in the complex energy plane has been precisely located, we can ask whether this state is transiently qq or qq qq or a multi-meson molecule or largely glue? The two photon decay of the σ can, in principle, discriminate between these possibilities. We review here how the γγπ+π-, π0π0 cross-sections can be accurately computed. The result not only agrees with experiment, but definitively fixes the radiative coupling of the σ. This equates to a two photon width of (4.1 0.3) keV, which accords with the simple non-relativistic quark model expectation for a uu, dd scalar. Nevertheless, robust predictions from relativistic strong coupling QCD are required for each of the possible compositions before we can be sure which one really delivers the determined γγ coupling.