Shedding light on the nature of ϕ(2170) with the parton and hadron cascade model PACIAE
Abstract
The nature of ϕ(2170) remains open. We simulate its production in e+e- collisions at s=4.95 GeV using PACIAE 4.0, which sequentially generates the final partonic state (FPS) and the final hadronic state (FHS). While previous studies have interpreted ϕ(2170) as an ssss or a uuss state, the U(1) anomaly coupling allows non-strange quarks to couple to a vector ss component via soft-gluon interactions. This motivates us to also explore the ddss tetraquark configuration. In addition, we consider ϕ(2170) as an excited strangeonium state, an ssg hybrid state, a ΛΛ bound state, and a ϕK+K- resonance state. The strangeonium, hybrid, and tetraquark candidates are formed by coalescing their constituent partons in the FPS using the dynamically constrained phase-space coalescence model. The ΛΛ and ϕK+K- states are produced via recombination of their constituent hadrons in the FHS. We calculate the orbital angular momentum quantum number of each candidate in its rest frame and perform spectral classification. Given JPC=1--, ϕ(2170) can be interpreted as a D-wave ss, a P-wave ssg, a P-wave uuss/ddss/ssss, an S-wave ΛΛ, or an S-wave ϕK+K- state. The yields of the D-wave ss, P-wave ssg, uuss and ddss states are of order 10-4; those for the S-wave ΛΛ and ϕK+K- states are of order 10-5; while the P-wave ssss yield is of order 10-6. Moreover, significant discrepancies are observed in the rapidity distributions and the pT spectra among the various candidates. These discrepancies could serve as valuable criteria for unraveling the nature of ϕ(2170).
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