Scalar f0(980) and sigma(500) meson exchange in phi decays into pi0pi0gamma
arXiv:hep-ph/0204339 · doi:10.1140/epjc/s2002-01051-0
Abstract
The complementarity between Chiral Perturbation Theory and the Linear Sigma Model is exploited to study $Ï^0Ï^0$ production in $Ï$ radiative decays, where the effects of the $f_0(980)$ scalar resonance, and those of its more controversial $Ï(500)$ partner, should become manifest via the $Ï\to K^+ K^- (γ)\toÏ^0Ï^0γ$ decay chain. The recently reported data on $Ï\toÏ^0Ï^0γ$ coming from the VEPP-2M $e^+ e^-$ collider in Novosibirsk and the DA$Φ$NE $Ï$-factory in Frascati can be reasonably described in our approach, which we propose as a promising first step towards more detailed analyses. The $f_0(980)$ contribution, which appears as a moderately narrow peak at the high part of the dipion mass spectrum, can be interpreted as the isoscalar member of the scalar nonet with a large $f_0 K\bar{K}$ coupling and an $f_0ÏÏ$ coupling suppressed by almost ideal $Ï$-$f_0$ mixing. Indeed, the mixing angle in the flavour basis is found to be $Ï_{S}\approx -6^\circ$, if the $f_0$-propagator is approximated by a simple Breit-Wigner, or $Ï_{S}\approx -9^\circ$, if an improved two-channel analysis is performed. The $Ï(500)$ resonance, which is then strongly coupled to pion pairs, yields a tiny contribution because, in our approach, its coupling to kaon pairs is proportional to $m^2_Ï-m^2_K$ and thus quite small.
18 pages, 4 figures; new treatment of the f0 propagator added and Comments on previous work corrected