Revealing the D0*(2300) two-pole structure from lattice data and the SU(3) limit

Abstract

We perform an analysis of LQCD light - charmed (pseudoscalar) meson scattering data with UChPT for pion masses ranging from mπ 230~MeV till the SU(3) limit, mπ 700~MeV. We find two poles in the non-strange isospin I=1/2 sector that can be related to the experimental D0(2300) resonance. At the physical pion mass, the poles are located at s0=2094(7)(1)-i111(7)(13) MeV, and 2463(60)(30)-i108(14)(12)~MeV. While the first pole, named here D0*(2100), is always a resonance in Dπ within the 1σ region, the second pole can be a resonance or virtual state close to the Dη, DsK thresholds. For the first time, the pion mass dependence on different chiral trajectories including SU(3) LQCD data are investigated for these poles. We find that in the ms=ms,phy trajectory, the D0*(2100) resonance pole behaves similarly as the σ resonance in ππ scattering, splitting into two poles, connected to the 3 representation. Moreover, we found that the higher pole related to the experimental D0*(2300) can be related to the 6 representation. We highlight that since this pole couples strongly to channels with hidden strangeness, its mass is fairly constant in the Tr[M]=C trajectory, what can be tested in future LQCD simulations. The compositeness of the D0*(2100) state at the SU(3) limit is evaluated. Finally, other sectors are also discussed.