Photo-production of Bound States with Hidden Charms

Abstract

The photo-production of J/-3He bound state ([3He]J/) on a 4He target has been investigated using the impulse approximation. The calculations have been performed using several γ+N → J/ +N models based on the Pomeron-exchange and accounting for the pion-exchange mechanism at low energies. The J/ wavefunctions in [3He]J/ are generated from various J/-nucleus potentials which are constructed by either using a procedure based on the Pomeron-quark coupling mechanism or folding a J/-N potential (vJ/,N) into the nuclear densities. We consider vJ/,N derived from the effective field theory approach, Lattice QCD, and Pomeron-quark coupling mechanism. The upper bound of the predicted total cross sections is about 0.1 - 0.3 pico-barn. We also consider the possibility of photo-production of a six quark-J/ bound state ([q6]J/) on the 3He target. The Compound Bag Model of NN scattering and the quark cluster model of nuclei are used to estimate the [q6]-N wavefunction in 3He by imposing the condition that the calculated 3He charge form factor must be consistent with what is predicted by the conventional nuclear model. The upper bound of the predicted total cross sections of γ + 3He → [q6]J/ +N is about 2 - 4 pico-barn, depending on the model of γ+N → J/ +N used in the calculations. Our results call for the need of precise measurements of γ+p → J/ +p and also the γ+2H→ J/ +n + p reactions near the threshold.