Implication of chiral symmetry for the heavy-light meson spectroscopy

Abstract

Many hadronic states observed since 2003, especially for the positive-parity charm-strange states Ds0 (2317) and Ds1(2460), do not conform with the conventional quark model expectations and raise various puzzles in charm meson spectroscopy. We demonstrate that those puzzles find a natural solution thanks to the recent development of chiral effective theory and Lattice simulations. The existence of the Ds0 (2317) and Ds1(2460) are attributed to the nonperturbative dynamics of Goldstone bosons scattering off D and D mesons. It indicates that the lowest positive parity nonstrange scalar charm mesons, the D0(2400) in the Review of Particel Physics, should be replaced by two states. The well constructed amplitudes are fully in line with the high quality data on the decays B- D+π-π- and Ds0 D0K-π+. This implies that the lowest positve-parity states are dynamically generated rather than conventional quark-antiquark states. This pattern has also been established for the scalar and axial-vector mesons made from light quarks (u, d and s quarks).