Molecular components in P-wave charmed-strange mesons

Abstract

Results obtained by various experiments show that the Ds0(2317) and Ds1(2460) mesons are very narrow states located below the DK and DK thresholds, respectively. This is markedly in contrast with the expectations of naive quark models and heavy quark symmetry. Motivated by a recent lattice study which addresses the mass shifts of the cs ground states with quantum numbers JP=0+ (Ds0(2317)) and JP=1+ (Ds1(2460)) due to their coupling with S-wave D()K thresholds, we perform a similar analysis within a nonrelativistic constituent quark model in which quark-antiquark and meson-meson degrees of freedom are incorporated. The quark model has been applied to a wide range of hadronic observables and thus the model parameters are completely constrained. The coupling between quark-antiquark and meson-meson Fock components is done using a 3P0 model in which its only free parameter γ has been elucidated performing a global fit to the decay widths of mesons that belong to different quark sectors, from light to heavy. We observe that the coupling of the 0+ (1+) meson sector to the DK (DK) threshold is the key feature to simultaneously lower the masses of the corresponding Ds0(2317) and Ds1(2460) states predicted by the naive quark model and describe the Ds1(2536) meson as the 1+ state of the jqP=3/2+ doublet predicted by heavy quark symmetry, reproducing its strong decay properties. Our calculation allows to introduce the coupling with the D-wave DK channel and the computation of the probabilities associated with the different Fock components of the physical state.