Dynamical mixing between 23S1 and 13D1 charmed mesons

Abstract

In charmed D and Ds mesons sector, the matrix of a Hamiltonian in a quark potential model is computed in the 23S1 and 13D1 subspace. The masses of four mixed states of 23S1 and 13D1 denoted with D*1(2635), D*1(2739), D*s1(2715) and D*s1(2805) are obtained. It is an off-diagonal part of the spin-orbit tensor interaction that causes the mixing between the 23S1 and 13D1 states. The mixing angles between the 23S1 and 13D1 states are tiny. Under the mixing, a 3P0 model is employed to compute the hadronic decay widths of all OZI-allowed decay channels of the four mixed states. The two light mixed states D*1(2635) and D*s1(2715) are close in mass to D*J(2600) and D*s1(2700), while the two heavy mixed states D*1(2739) and D*s1(2805) are lighter in mass than D(2750) and D*s1(2860). The mixing angles obtained from dynamical interaction are inconsistent with the mixing angles obtained from hadronic decay. Based on mass spectra and hadronic decay analyses, D*J(2600), D(2750), D*s1(2700) and D*s1(2860) are impossibly the mixed states of 23S1 and 13D1 at the small mixing angles. The inconsistence implies that D*1(2760) and D*s1(2860) have not been properly resolved from present experimental data, or there exist large unknown off-diagonal interactions that result in large mixing angles.