Abstract
In this work, we study the hidden-strange molecular states composed of a baryon and a vector meson in a coupled-channel $N\rho-N\omega-N\phi-\Lambda K^*-\Sigma K^*$ interaction. With the help of the effective Lagrangians which coupling constants are determined by the SU(3) symmetry, the interaction is constructed and inserted into the quasipotential Bethe-Salpeter equation to search for poles in the complex plane, which correspond to molecular states. Two poles are found with a spin parity $3/2^-$ near the $N\rho$ and the $\Sigma K^*$ thresholds, which can be related to the $N(1700)$ and the $N(2100)$, respectively. No pole near the $N\phi$ threshold can be found if direct interaction between a nucleon and $\phi$ meson is neglected according to the OZI rule. After introducing the QCD van der Waals force between a nucleon and $\phi$ meson, a narrow state can be produced near the $N\phi$ threshold. Inclusion of the QCD van der Waals force changes the line shape of the invariant mass spectrum in the $N\phi$ channel leading to a worse agreement with the present low-precision data. Future experiments at BelleII, JLab, and other facilities will be very helpful to clarify the existence of these possible hidden-strange molecular states.
Highlights
After observations of the Xð3872Þ and the claimed Θ particle, the study of the exotic hadron becomes a very hot topic in the hadron physics community [1,2]
We study the hidden-strange molecular states composed of a baryon and a vector meson in a coupled-channel Nρ − Nω − Nφ − ΛKÃ − ΣKÃ interaction
We study the hidden-strange pentaquarks from a coupled Nρ − Nω − Nφ − ΛKÃ − ΣKÃ interaction
Summary
After observations of the Xð3872Þ and the claimed Θ particle, the study of the exotic hadron becomes a very hot topic in the hadron physics community [1,2]. The results suggest that two states with a spin parity 3=2− can be produced from the ΣKÃ and ΣÃK interactions, which correspond to the Nð2100Þ observed in the φ photoproduction and the Nð1875Þ, respectively Such hidden-strange molecular states are supported by analyses of experimental data of relevant photoproductions as in Refs. [22,23], the QCD van der Waals force, which reflects a multigluon exchange, has been suggested to be strong enough to produce a bound state Such a proposal is supported by a study in Ref. It is interesting to make a systematic study of possible states from the coupled-channel Nρ − Nω − Nφ − ΛKÃ − ΣKÃ interaction in experiment and theory, which will deepen our understanding about the hidden-strange pentaquark.
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