Further study on excited QQ via photoproduction at CEPC and FCC-ee

Abstract

Within the framework of NRQCD, the photoproduction of doubly heavy baryons cc, bc, bb and their P-wave excited states has been systematically investigated. The production mechanism is that a color anti-triplet or sextuplet diquark QQ is first produced, and then evolved into a corresponding doubly heavy baryon QQ via the subprocess γ+γ → QQ [n] +Q+Q → QQ +Q+Q. Here, Q() denotes the heavy quark b or c, [n] is the color and spin quantum number of intermediate diquark, which can be [3S1]3/6 and [1S0]3/6 for S-wave states, or [1P1]3/6 and [3PJ]3/6 with J=0,~1,~2 for P-wave states. Predictions for the cross sections, differential distributions, and theoretical uncertainty have been analyzed. The results indicate that, at s=91 GeV, the contribution of photoproduction for P-wave cc, bc, and bb is approximately 2.19\%, 4.23\%, 1.26\% of the contribution for S-wave, respectively. As the collision energy increases, the contribution of P-wave also increases. Assuming that the highly excited state can decay into ground state with 100\% efficiency, the total produced events at CEPC and FCC-ee can be as high as O(108), O(107), and O(105) corresponding to cc, bc, and bb, respectively, which is very promising to be detected in future experiments.