Possible explanations of the observed c resonances

Abstract

Inspired by the latest experimental progress, we systematically study the OZI-allowed two-body strong decay properties of 1P-, 1D-, 2S- and 2P-wave c baryons within the j -j coupling scheme in the framework of the quark pair creation model. The calculations indicate that: (i) Taking the observed states c(2595)+ and c(2625)+ as the 1P-wave λ-modes states c|JP=1/2-,1λ and c|JP=3/2-,1λ, respectively, we can reproduce the experimental data well in theory. (ii) Combining with the measured mass and the decay properties of c(2860)+, this excited state can be explained as 1D-wave λ-mode state c|JP=3/2+,1λλ. (iii) The newly observed state c(2910)+ may be assigned as one of the 1P-wave -mode states c|JP=3/2-,2 or c|JP=5/2-,2. Meanwhile, we notice that the partial decay width ratio between cπ and c*π for the two candidates is significantly different. Hence, experimental progress in this ratio measurement may shed light on the nature of c(2910)+. (iv) According to the properties of c(2765)+, we find that the 2S-wave λ-mode state c1|JP=1/2+,0λ may be a potential candidate. (v) The 2P-wave λ-mode state c1|JP=3/2-,1λ is mostly likely to be a good assignment of the controversial state c(2940)+. Both the total decay width and partial decay ratio between pD0 and cπ are in good agreement with the observations. (vi) In addition, for the missing c excitations, we obtain their strong decay properties and hope that's useful for future experimental exploration.

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