Mixing of Pentaquark and Molecular States

Abstract

There are experimental evidences for the existence of narrow states + and c with the same quantum numbers of uudd s and uudd c pentaquarks and also NK(*) and ND(*) molecular states. Their masses deviate from many theoretical estimates of the pure pentaquark and molecular states. In this work we study the possibility that the observed + and c are mixtures of pure pentaquark and molecular states. The mixing parameters are in general related to non-perturbative QCD which are not calculable at present. We determine them by fitting data from known states and then generalize the mechanism to b to predict its mass and width. The mixing mechanism can also naturally explain the narrow width for + and c through destructive interferences, even if the pure pentaquark and molecular states have much larger decay widths. We also briefly discuss the properties of the partner eigenstates of + and c and the possibility of experimentally observe them. Moreover, probable consequences of multi-state mixing are also addressed.

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