Friday, March 8, 2013

1303.1563 (Tianhong Wang et al.)

Annihilation rate of $2^{-+}$ charmonium and bottomonium    [PDF]

Tianhong Wang, Guo-Li Wang, Wan-Li Ju, Yue Jiang
The $1^1D_2 (c\bar c)$ state is the ground state of spin-singlet D-wave charmonia. Although it has not been found yet, the experimental data accumulate rapidly. This charmonium attracts more and more attention, especially when the BaBar Collaboration finds that the X(3872) particle has negative parity. In this paper we calculate the double-gamma and double-gluon annihilation processes of $^1D_2$ charmonia and bottomonia by using the instantaneous Bethe-Salpeter method. We find the relativistic corrections make the decay widths of $1^1D_2 (c\bar c)$ 2$\sim$5 times smaller than the non-relativistic results. If this state is below the $D^0{D^{0}}^\ast$ threshold, we can use the sum of annihilation widths and EM transition widths to estimate the total decay width. Our result for $1{^1D_2} (c\bar c)$ with $m=3820$ GeV is $\Gamma= 432$ keV. The dominant decay channel $1^1D_2 (c\bar c)\to h_c \gamma$, whose branching ratio is about 90%, can be used to discover this state.
View original: http://arxiv.org/abs/1303.1563

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