Interpretation of the Narrow $J/ψp$ Peaks in $Λ_b \to J/ψp K^-$ Decay in the Compact Diquark Model (1904.00446v2)
Abstract: Recently, the LHCb Collaboration have updated their analysis of the resonant $J/\psi p$ mass spectrum in the decay $\Lambda_b0 \to J/\psi p K-$. In the combined Run~1 and Run~2 LHCb data, three peaks are observed, with the former $P_c(4450)+$ state split into two narrow states, $P_c(4440)+$ and $P_c(4457)+$, having the masses $M=(4440.3\pm 1.3{+4.1}_{-4.7})$ MeV and $M=(4457.3\pm 0.6{+4.1}_{-1.7})$ MeV, and decay widths $\Gamma=(20.6\pm 4.9{+8.7}_{-10.1})$ MeV and $\Gamma=(6.4\pm 2.0{+5.7}_{-1.9})$ MeV, respectively. In addition, a third narrow peak, $P_c(4312)+$, having the mass $M=(4311.9\pm 0.7{+6.8}_{-0.6})$ MeV and decay width $\Gamma=(9.8\pm 2.7{+3.7}_{-4.5})$ MeV is also observed. The LHCb analysis is not sensitive to broad $J/\psi p$ contributions like the former $P_c(4380)+$, implying that there could be more states present in the data. Also the spin-parity, $JP$, assignments of the states are not yet determined. We interpret these resonances in the compact diquark model as hidden-charm diquark-diquark-antiquark baryons, having the following spin and angular momentum quantum numbers: $P_c(4312)+ ={\bar c [cu]{s=1} [ud]{s=0}; L_P=0, JP=3/2-}$, the $S$-wave state, and the other two as $P$-wave states, with $P_c(4440)+ ={\bar c [cu]{s=1} [ud]{s=0}; L_P=1, JP=3/2+}$ and $P_c(4457)+ = {\bar c [cu]{s=1} [ud]{s=0}; L_P=1, JP=5/2+ }$. The subscripts denote the spins of the diquarks and $L_P=0,1$ is the orbital angular momentum quantum number of the pentaquark. These assignments are in accord with the heavy-quark-symmetry selection rules for $\Lambda_b$-baryon decays, in which the spin $S=0$ of the light diquark $[ud]_{s=0}$ is conserved. The masses of observed states can be accommodated in this framework and the two heaviest states have the positive parities as opposed to the molecular-like interpretations.