Pentaquark Symmetries, Selection Rules and another potentially Narrow State
Abstract
We identify essential differences between the pentaquark and chiral soliton models of \10bar5 and 85 pentaquarks and conventional 83 states, which are experimentally measurable. We show how the decays of 5 states in particular can test models of the pentaquarks, recommend study of the relative branching ratios of e.g. -5 -π0:0π-, and predict that the decay amplitude 5 *π is zero at leading order in pentaquark models for any mixture of \10bar and the associated 85. We also include a pedagogic discussion of wavefunctions in the pentaquark picture and show that pentaquark models have this 85 with F/D=1/3, in leading order forbidding 5 K. The role of Fermi-Dirac symmetry in the qqqq wavefunction and its implications for the width of pentaquarks are briefly discussed. The relative couplings g2(Q N KQ*)/g2(Q N KQ) = 3 for Q s,c,b. A further potentially narrow state in 85 with JP = 3/2+ is predicted around 1650 MeV.
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