Isospin-conserving hadronic decay of the Ds1(2460) into Dsπ+π-

Abstract

The internal structure of the charm-strange mesons Ds0*(2317) and Ds1(2460) are subject of intensive studies. Their widths are small because they decay dominantly through isospin-breaking hadronic channels Ds0*(2317)+ Ds+π0 and Ds1(2460)+ Ds*+π0. The Ds1(2460) can also decay into the hadronic final states Ds+ππ, conserving isospin. In that case there is, however, a strong suppression from phase space. We study the transition Ds1(2460)+ Ds+π+π- in the scenario that the Ds1(2460) is a D*K hadronic molecule. The ππ final state interaction is taken into account through dispersion relations. We find that the ratio of the partial widths of the (Ds1(2460)+ Ds+π+π-)/(Ds1(2460)+ Ds*+π0) obtained in the molecular picture is consistent with the existing experimental measurement. More interestingly, we demonstrate that the π+π- invariant mass distribution shows a double bump structure, which can be used to disentangle the hadronic molecular picture from the compact state picture for the Ds1(2460)+. Predictions on the Bs10 Bs0π+π- are also made.