\begin{document}$\eta_c$\end{document} exclusive decay to double glueballs, we introduce a model to phenomenologically mimic the gluon-pair-vacuum interaction vertices, namely the \begin{document}$0^{++}$\end{document} model. Based on this model, we study glueball production in pseudoscalar quarkonium decays, explicitly \begin{document}$\eta_c \to f_0(1500)\eta(1405)$\end{document}, \begin{document}$\eta_b\to f_0(1500)\eta(1405)$\end{document} , and \begin{document}$\eta_b\to f_0(1710)\eta(1405)$\end{document} processes. Among them \begin{document}$f_0(1500)$\end{document} and \begin{document}$f_0(1710)$\end{document} are well-known scalars possessing large glue components, while \begin{document}$\eta(1405)$\end{document} is a potential candidate for a pseudoscalar glueball. The preliminary calculation results indicate that these processes are marginally accessible in the presently running experiments BES III, BELLE II, and LHCb."> Gluon-pair-creation production model of strong interaction vertices -
  • [1]

    H. D. Politzer, Phys. Rev. Lett.,30: 1346 (1973); ibid, Phys. Rep.,14: 129 (1974); D. J. Gross and F. Wilczek, Phys. Rev. Lett.,30: 1343 (1973); ibid, Phys. Rev. D,8: 3633 (1973)

  • [2]

    Cong-Feng Qiao and Ling Tang, Phys. Rev. Lett.,113: 221601 (2014); Liang Tang and Cong-Feng Qiao, Nucl. Phys. B,904: 282 (2016)

  • [3]

    W. Lee and D. Weingarten, Phys. Rev. D,61: 014015 (1999)

  • [4]

    G. S. Baliet al., Phys. Lett. B,309: 378 (1993)

  • [5]

    C. J. Morningstar and M. J. Peardon, Phys. Rev. D,56: 4043 (1997)

  • [6]

    Y. Chenet al., Phys. Rev. D,73: 014516 (2006)

  • [7]

    M. Acciarriet al., Phys. Lett. B,501: 173 (2001)

  • [8]

    R. Barateet al., Phys. Lett. B,472: 189 (2000)

  • [9]

    A. Abeleet al., Phys. Lett. B,385: 425 (1996)

  • [10]

    A. Abeleet al., Phys. Rev. D,57: 3860 (1998)

  • [11]

    D. Barberiset al., Phys. Lett. B,462: 462 (1999)

  • [12]

    S. Janowski, F. Giacosa, and D. H. Rischke, Phys. Rev. D,90(11): 114005 (2014)

  • [13]

    C. Amsler and F. E. Close, Phys. Lett. B,353: 385 (1995); F. E. Close and A. Kirk, Phys. Lett. B,483: 345 (2000)

  • [14]

    F. E. Close and Q. Zhao, Phys. Rev. D,71: 094022 (2005)

  • [15]

    X. G. He, X. Q. Li, X. Liuet al., Phys. Rev. D,73: 114026 (2006)

  • [16]

    X. H. Yuan, L. Tang, M. Z. Yanget al., arXiv: 1104.2118

  • [17]

    V. Crede and C.A. Meyer, Prog. Part. Nucl. Phys.,63: 74-116 (2009)

  • [18]

    J. F. Donoghue, K. Johnson, and B. A. Li, Phys. Lett. B,99: 416 (1981)

  • [19]

    M. S. Chanowitz, Phys. Rev. Lett.,46: 981 (1981)

  • [20]

    K. Ishikawa, Phys. Rev. Lett.,46: 978 (1981)

  • [21]

    R. Lacaze and H. Navelet, Nucl. Phys. B,186: 247 (1981)

  • [22]

    A. Masoni, C. Cicalo, and G. L. Usai, J. Phys. G,32: R293 (2006)

  • [23]

    M. Ablikimet al., Phys. Rev. Lett.,107: 182001 (2011)

  • [24]

    C. Amsleret al., Phys. Lett. B,358: 289 (1995)

  • [25]

    M. Acciarriet al., Phys. Lett. B,501: 1 (2001)

  • [26]

    C. J. Morningstar and M. Peardon, Phys. Rev. D,60: 034509 (1999)

  • [27]

    Gang Hao, Cong-Feng Qiao, and Ai-Lin Zhang, Phys. Lett. B,642: 53 (2006)

  • [28]

    G. Gabadadze, Phys. Rev. D,58: 055003 (1998)

  • [29]

    L. Faddeev, A. J. Niemi, and U. Wiedner, Phys. Rev. D,70: 114033 (2004)

  • [30]

    H.-Y. Cheng, H.-N. Li, and K.-F. Liu, Phys. Rev. D,79: 014024 (2009)

  • [31]

    Meng-Chuan Du and Qiang Zhao, Phys. Phys. D,100: 036005 (2019)

  • [32]

    W. I. Eshraim, S. Janowski, F. Giacosaet al., Phys. Rev. D,87(5): 054036 (2013)

  • [33]

    F. Brünner and A. Rebhan, Phys. Lett. B,770: 124 (2017)

  • [34]

    L. Micu, Nucl. Phys. B,10: 521 (1969)

  • [35]

    A. Le Yaouanc, L. Oliver, O. Pèneet al., Phys. Rev. D,8: 2223 (1973)

  • [36]

    A. Le Yaouanc, L. Oliver, O. Pèneet al.,Hadron Transitions in the Quark Model, Gordon and Breach Science Publishers, New York, (1987)

  • [37]

    E. S. Ackleh, T. Barnes, and E. S. Swanson, Phys. Rev. D,54: 6811 (1996)

  • [38]

    Z. G. Luo, X. L. Chen, and X. Liu, Phys. Rev. D,79: 074020 (2009)

  • [39]

    Y. Sun, Q.-T. Song, D.-Y. Chenet al., Phys. Rev. D,89: 054026 (2014)

  • [40]

    J. Segovia, D. R. Entem, and F. Fernández Grupo, Phys. Lett. B,715: 322 (2012)

  • [41]

    T. J. Burns, Phys. Rev. D,90: 034009 (2014)

  • [42]

    Harry G. Blundell, arXiv: hep-ph/9608473

  • [43]

    Y. Yang, Z. Xia, and J. Ping, Phys. Rev. D,81: 094003 (2010)

  • [44]

    T. Feldmann, P. Kroll, and B. Stech, Phys. Rev. D,58: 114006 (1998)

  • [45]

    T. Feldmann, P. Kroll, and B. Stech, Phys. Lett. B,449: 339 (1999)

  • [46]

    N. Kochelev and D. P. Min, Phys. Rev. D,72: 097502 (2005)

  • [47]

    Y. D. Tsai, H. n. Li, and Q. Zhao, Phys. Rev. D,85: 034002 (2012)

  • [48]

    M. Jacob and G. C. Wick, Ann. Phys. (N.Y.),7: 404 (1959)

  • [49]

    C. Bernard, Phys. Lett. B,108: 431 (1982)

  • [50]

    J. M. Cornwall, Phys. Rev. D,26: 1453 (1982)

  • [51]

    M. Tanabashiet al. (Particle Data Group), Phys. Rev. D,98: 030001 (2018)

  • [52]

    Gang Hao, Cong-Feng Qiao, and Peng Sun, Phys. Rev. D,76: 125013 (2007)

  • [53]

    F. Brünner, D. Parganlija, and A. Rebhan, Phys. Rev. D,91(10): 106002 (2015), Erratum: [Phys. Rev. D,93(10): 109903 (2016)]

  • [54]

    L. C. Guiet al. (CLQCD Collaboration), Phys. Rev. Lett.,110(2): 021601 (2013)

  • [55]

    M. Strohmeier-Presicek, T. Gutsche, R. Vinh Mauet al., Phys. Rev. D,60: 054010 (1999)

Baidu
map