Pentaquark Theta+(1540) production in gamma N --> K Anti-K N
Abstract
The recent developments in the search of exotic pentaquark hadrons are briefly reviewed. We then focus on investigating how the exotic pentaquark (1540) baryon production can be identified in the γ N K K N reactions, focusing on the influence of the background (non- production) mechanisms. By imposing the SU(3) symmetry and using various quark model predictions, we are able to fix the coupling constants for evaluating the kaon backgrounds, the KK production through the intermediate vector meson and tensor meson photoproduction, and the mechanisms involving intermediate (1116), (1405), (1520), (1193), (1385), and (1232) states. The total cross section data of γ p K+K- p is then used to fix the form factors which regularize the background amplitudes so that the signal of (1540) in γ n K+K-n and γ p K0K0p cross sections can be predicted. We find that the predicted K+K- and K+ n invariant mass distributions of the γ n K+ K- n reaction can qualitatively reproduce the shapes of the JLab data. However, the predicted (1540) peak can not be identified unambiguously with the data. High statistics experiments are needed to resolve the problem. We also find that an even-parity is more likely to be detected, while it will be difficult to identify an odd-parity , even if it exists, from the background continuum, if its coupling constants are small as in the present quark model predictions.
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