DK and BK-like spectra from Laplace sum rule at NLO

Abstract

Encouraged by the agreement, with the recent LHCb data on the D-K+ invariant mass from B → D+D-K+ decay, of our results for the masses of the 0+ and 1- open charm ( c d)(u s) tetraquarks and molecules states from QCD spectral sum rules within stability criteria, which we review here, we extend our analysis to the b-quark channel. We find, in the 0+ case the lowest mass MBK=5195(15)~ MeV with fBK=8.3(2.4)~ keV and three (almost) degenerate states having respectively the masses MSS=5702(60)~ MeV, MAA=5661(75)~ MeV and MB*K*=5720(71)~ MeV and couplings fSS=22.2(2.3)~ keV, fAA=30.1(3.1)~ keV and fB*K*=26.5(2.8)~ keV, from which we can associate a scalar tetramole with M T M0=5694(69)~ MeV~and ~ f T M0=26.5(2.7)~ keV. In the spin 1 case, we find four (almost) degenerate states associated with a tetramole having M T M1=5700(81)~ MeV~and ~ f T M1=16.2(2.6)~ keV. For the first radial excitation of the BK molecule, we have M(BK)1 = 6265(146) ~ MeV and f(BK)1 = 22.8(3.2) ~ keV . For the remaining states, we associate a scalar and vector tetramoles having respectively M (T M0)1=7439(314)~ MeV, ~ f (T M0)1=74.7(8.4)~ keV and M (T M1)1=7544(345)~ MeV, ~ f (T M1)1=33.0(6.7)~ keV.