Investigation of a candidate spin-12 hidden-charm triple strange pentaquark state Pcsss

Abstract

A candidate triple strange pentaquark state, Pcsss, is investigated through its strong decay channel Pcsss → -J/ . To calculate the relevant strong coupling constants, two possible interpolating currents with spin-parity JP=12- are used. Though the chosen currents for the state under consideration have spin-parity quantum numbers JP=12-, they couple to both the positive and negative parity states simultaneously and the corresponding decay widths are obtained for both parities. These widths are obtained as (Pcsss → J/ -)=201.4 82.5~MeV for the negative and (Pcsss → J/ -)=316.4 107.8~MeV for the positive parity state when the first current is used. For the second current, we obtain (Pcsss → J/ -)=252.5 116.7~MeV for the negative and (Pcsss → J/ -)=361.1 98.4~MeV for the positive parity state. These results may provide insights into future experimental observations of such candidate states and help to distinguish and fix their properties.