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Chromopolarizability of charmonium and $pipi$ final state interaction revisited

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 Added by Yun-Hua Chen
 Publication date 2019
  fields
and research's language is English
 Authors Yun-Hua Chen




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The chromopolarizability of a quarknonium describes the quarknoniums interaction with soft gluonic fields and can be measured in the heavy quarkonium decays. Within the framework of dispersion theory which consider the $pipi$ final state interaction (FSI) model-independently, we analyze the transition $psi^primeto J/psipi^+pi^-$ and obtain the chromopolarizability $alpha_{psi^prime psi}$ and the parameter $kappa$. It is found that the $pipi$ FSI plays an important role in extracting the chromopolarizability from the experimental data. The obtained chromopolarizability with the FSI is reduced to about 1/2 of that without the FSI. With the FSI, we determine the chromopolarizability $|alpha_{psi^primepsi}|=(1.44pm 0.02)$ GeV$^{-3}$ and the parameter $kappa=0.139pm 0.005.$ Our results could be useful in studying the interactions of charmonium with light hadrons.



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108 - Sergey Barsuk , Jibo He , Emi Kou 2012
We propose to investigate various charmonium states using their common decay channel to p pbar at LHC. Having the branching ratios for charmonium decaying into the p pbar final state measured or calculated, we propose to measure the charmonium production rate for both hadroproduction including soft-diffraction and inclusive production from b-hadron decays. We discuss the theoretical impacts in QCD of measuring different charmonium production rates and also the experimental prospects at LHCb, in particular, those for yet unmeasured eta_c and h_c.
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138 - Jose A. Oller 2004
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