The chiral transitions in heavy-light mesons

Abstract

The mass shifts of the P-wave Ds and Bs mesons due to coupling to DK, D*K and BK, B*K channels are studied using the chiral quark-pion Lagrangian without fitting parameters. The strong mass shifts down 140 MeV and 100 MeV for D*s(0+) and Ds(1+') and 100 MeV for B*s(0+) and Bs(1+') are calculated. Two factors are essential for large mass shifts: strong coupling of the 0+ and 1+' states to the S-wave decay channel, containing a Nambu-Goldstone meson, and the chiral flip transitions due to the bispinor structure of both heavy-light mesons. The masses M(B*s(0+))=5695(10) MeV and M(Bs(1+'))=5730(15) MeV,very close to M(B(0+)) and M(B(1+')), are predicted. Experimental limit on the width (Ds1(2536))<2.3 MeV puts strong restrictions on admittable mixing angle between the 1+ and 1+' states, |φ|<6, which corresponds to the mixing angle θ between the 3P1 and 1P1 states, 29<θ< 41.