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Prediction of a narrow exotic hadronic state with quantum numbers J^(PC)=0⁻⁻

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arxiv 2205.10994 v2 pith:PTHB5TGH submitted 2022-05-23 hep-ph hep-exhep-lat

Prediction of a narrow exotic hadronic state with quantum numbers J^(PC)=0⁻⁻

classification hep-ph hep-exhep-lat
keywords exoticstatenumbersobservedquantumbeenboundcharmonium-like
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Lots of charmonium-like structures have been observed in the last two decades. Most of them have quantum numbers that can be formed by a pair of charm and anticharm quarks, thus it is difficult to unambiguously identify the exotic ones among them. In this Letter, by exploiting heavy quark spin symmetry, we present a robust prediction of the hadronic molecular scenario, where the $\psi(4230),\psi(4360)$ and $\psi(4415)$ are identified as $D\bar D_1,D^*\bar D_1$ and $D^*\bar D^*_2$ bound states, respectively. We show that a flavor-neutral charmonium-like exotic state with quantum numbers $J^{PC}=0^{--}$, denoted as $\psi_0(4360)$, should exist as a $D^*\bar D_1$ bound state. The mass and width of the $\psi_0(4360)$} are predicted to be $(4366\pm18)$ MeV and less than 10 MeV, respectively. The $\psi_0(4360)$ is significant in two folds: no $0^{--}$ hadron has been observed so far, and a study of this state will enlighten the understanding of the mysterious vector mesons between 4.2 and 4.5 GeV, as well as the nature of previously observed exotic $Z_c$ and $P_c$ states. We propose that such an exotic state can be searched for in $e^+e^-\to \eta \psi_0(4360)$ and uniquely identified by measuring the angular distribution of the outgoing $\eta$ meson.

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Cited by 2 Pith papers

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    Fitting a spectator-isobar three-body unitary amplitude to BESIII K0S K0S pi0 data yields poles at (1277±2±1)-i(12±1±0) MeV for f1(1285) and (1435±2±7)-i(40±2±1) MeV for f1(1420), with the latter traced to a K Kbar* q...

  2. Vector charmonium(-like) states in the energy range of 4.1-4.6 GeV

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    A coupled-channel framework is developed and fitted to BESIII data on vector charmonium-like states in the 4.1-4.6 GeV range, concluding that coupled-channel effects with dynamically generated poles explain the line shapes.