Charmonium mass shifts in an unquenched quark model
Abstract: In this paper, we performed a coupled-channel calculation and evaluated the mass shifts for all $1S$, $2S$, $1P$, $2P$ and $1D$ charmonium valence states below 4 GeV, by incorporating the four-quark components ($D$, $D*$, $D_s$ and $D_s*$ meson pairs) into the quark model. The valence-continuum coupling is provided by the $3P_0$ quark-pair creation model. The induced mass shifts appear to be large and negative with the original transition operator in $3P_0$ model, which raised up challenges for the valence quark model. More QCD-motivated models should be employed for the quark-pair creation Hamiltonian. So herein, we recalculated the mass shifts with the improved $3P_0$ transition operator introduced in our previous work and the mass shifts are reduced by $75\%$ averagely. Besides, as a exercise, we adjust the confinement parameter $\Delta$ and recalculate the spectrum of the charmonium states. The masses of some charmonium states are reproduced well.
Paper Prompts
Sign up for free to create and run prompts on this paper using GPT-5.
Top Community Prompts
Collections
Sign up for free to add this paper to one or more collections.