Production of excited heavy quarkonia in e+e- γ*/Z0 |(QQ)[n] +γ at super Z factory

Abstract

Within the nonrelativistic quantum chromodynamics framework, we make a comprehensive study on the exclusive production of excited charmonium and bottomonium in e+e- γ*/Z0 |(QQ)[n] +γ (Q=c or b quarks) at future Z factory, where the [n] represents the color-singlet n1S0,~n3S1,~n1P0 and n3PJ (n=1,2,3,4; J=0,1,2) Fock states. The "improved trace technology" is adopted to derive the analytic expressions at the amplitude level, which is useful for calculating the complicated nP-wave channels. Total cross sections, differential distributions, and uncertainties are discussed in system. According to our study, production rates of heavy quarkonia of high excited Fock states are considerable at future Z factory. The cross sections of charmonium for 2S, 3S, 4S, 1P, 2P, 3P and 4P-wave states are about 53.5\%, 30.4\%, 23.7\%, 13.7\%, 6.8\%, 9.2\%, and 9.2\% of that of the 1S state, respectively. And cross sections of bottomonium for 2S, 3S, 4S, 1P, 2P, 3P and 4P-wave states are about 39.3\%, 12.3\%, 14.3\%, 7.1\%, 3.1\%, 2.7\%, and 3.1\% of that of the 1S state, respectively. The main uncertainties come from the radial wave functions at the origin and their derivatives at the origin under different potential models. Then, such super Z factory should be a good platform to study the properties of the high excited charmonium and bottomonium states.

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