Mechanisms of the isospin-breaking decay f1(1285) f0(980)π0π+π-π0

Abstract

Estimated are the contributions of the following mechanisms responsible for the decay f1(1285) f0(980)π0π+π-π0: 1) the contribution of the a00(980)-f0(980) mixing, f1(1285) a0(980)π0 (K+K-+K0 K0)π0 f0(980)π0π+π-π0, 2) the contribution of the transition f1(1285)(K+K-+K0 K0)π0 f0 (980)π0π+π-π0, arising due to the pointlike decay f1 (1285) K Kπ0, 3) the contribution of the transition f1(1285)(K* K+ K*K)(K+K-+K0 K0)π0 f0(980)π0 π+π-π0, where K*=K*(892), and 4) the contribution of the transition f1(1285)(K*0 K+ K*0K)(K+K-+K0 K0)π0 f0(980)π+ π-π0, where K*0=K*0(800) (or ) and K*0(1430). These mechanisms break the conservation of the isospin due to the nonzero mass difference of the K+ and K0 mesons. They result in the appearance of the narrow resonance structure in the π+π- mass spectrum in the region of the K K thresholds, with the width ≈2mK0-2mK+≈8 MeV. The observation of such a structure in experiment is the direct indication on the K K loop mechanism of the breaking of the isotopic invariance. We point out that existing data should be more precise, and it is difficult to explain them using the single specific mechanism from those listed above. Taking the decay f1(1285) f0(980)π0 π+π-π0 as the example, we discuss the general approach to the description of the K K loop mechanism of the breaking of isotopic invariance.