Bottomonium states versus recent experimental observations in the QCD-inspired potential model

  • In the QCD-inspired potential model where the quark-antiquark interaction consists of the usual one-gluon-exchange and the mixture of long-range scalar and vector linear confining potentials with the lowest order relativistic correction, we investigate the mass spectra and electromagnetic processes of a bottomonium system by using the Gaussian expansion method. It reveals that the vector component of the mixing confinement is anticonfining and takes around 18.51% of the confining potential. Combining the new experimental data released by Belle, BaBar and LHC, we systematically discuss the energy levels of the bottomonium states and make the predictions of the electromagnetic decays for further experiments.
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TIAN Wei-Zhao, CAO Lu, YANG You-Chang and CHEN Hong. Bottomonium states versus recent experimental observations in the QCD-inspired potential model[J]. Chinese Physics C, 2013, 37(8): 083101. doi: 10.1088/1674-1137/37/8/083101
TIAN Wei-Zhao, CAO Lu, YANG You-Chang and CHEN Hong. Bottomonium states versus recent experimental observations in the QCD-inspired potential model[J]. Chinese Physics C, 2013, 37(8): 083101.  doi: 10.1088/1674-1137/37/8/083101 shu
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Received: 2012-09-14
Revised: 2012-12-11
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Bottomonium states versus recent experimental observations in the QCD-inspired potential model

    Corresponding author: CHEN Hong,

Abstract: In the QCD-inspired potential model where the quark-antiquark interaction consists of the usual one-gluon-exchange and the mixture of long-range scalar and vector linear confining potentials with the lowest order relativistic correction, we investigate the mass spectra and electromagnetic processes of a bottomonium system by using the Gaussian expansion method. It reveals that the vector component of the mixing confinement is anticonfining and takes around 18.51% of the confining potential. Combining the new experimental data released by Belle, BaBar and LHC, we systematically discuss the energy levels of the bottomonium states and make the predictions of the electromagnetic decays for further experiments.

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