Mass spectra of strange double charm pentaquarks with strangeness S=-1

Abstract

The observation of the Tcs(2900) indicates the potential existence of strange double charm pentaquarks based on the heavy antidiquark symmetry. We systematically study the mass spectra of strange double charm pentaquarks with strangeness S=-1 in both molecular and compact structures for quantum numbers JP=1/2-, 3/2-, 5/2-. By constructing the interpolating currents, the mass spectra can be extracted from the two-point correlation functions in the framework of QCD sum rule method. In the molecular picture, we find that the c+D +, c'+D +, c +D +, cc ++K 0 and cc ++0 may form molecular strange double charm pentaquarks. In both pictures, the masses of the JP=1/2-, 3/2- pentaquarks locate within the 4.2-4.6~GeV and 4.2-4.5~GeV regions, respectively. As all of them are above the thresholds of their strong decay channels, they behave as a broad state, making them challenging to be detected in experiment. On the contrary, the mass of the JP=5/2- strange double charm pentaquark is located at 4.3~GeV and below its strong decay channel. This makes it as a narrow state and easy to be identified in experiment. The best observed channel is its semi-leptonic decay to double charm baryon. As the result, we strongly suggest experiments to search for JP=5/2- strange double charm pentaquarks as a first try.

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