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Thermal QCD Sum Rules Study of Vector Charmonium and Bottomonium States

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arxiv 1103.4330 v1 pith:EJM3JO3D submitted 2011-03-22 hep-ph

Thermal QCD Sum Rules Study of Vector Charmonium and Bottomonium States

classification hep-ph
keywords temperatureconstantsdecaymassesthermalfiniterulesstates
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We calculate the masses and leptonic decay constants of the heavy vector quarkonia, $J/\psi$ and $\Upsilon$ mesons at finite temperature. In particular, considering the thermal spectral density as well as additional operators coming up at finite temperature, the thermal QCD sum rules are acquired. Our numerical calculations demonstrate that the masses and decay constants are insensitive to the variation of temperature up to $T\cong 100 ~MeV$, however after this point, they start to fall altering the temperature. At deconfinement temperature, the decay constants attain roughly to 45% of their vacuum values, while the masses are diminished about 12%, and 2.5% for $J/\psi$ and $\Upsilon$ states, respectively. The obtained results at zero temperature are in good consistency with the existing experimental data as well as predictions of the other nonperturbative models. Considerable decreasing in the values of the decay constants can be considered as a sign of the quark gluon plasma phase transition.

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  1. Mass and Decay-Constant Evolution of Heavy Quarkonia and $B_c$ States from Thermal QCD Sum Rules

    hep-ph 2025-10 unverdicted novelty 4.0

    Thermal QCD sum rules with updated inputs yield a suppression hierarchy Υ < J/ψ < B_c for masses and decay constants near Tc, calibrated to vacuum data and consistent with LHCb B_c splitting.