η()-meson twist-2 distribution amplitude within QCD sum rule approach and its application to the semi-leptonic decay Ds+ η()+ _

Abstract

In this paper, we make a detailed discussion on the η and η'-meson leading-twist light-cone distribution amplitude φ2;η()(u,μ) by using QCD sum rules approach under the background field theory. Taking both the non-perturbative condensates up to dimension-six and NLO QCD corrections to the perturbative part, its first three moments n2;η()|μ0 with n = (2,4,6) at initial scale μ0 = 1 GeV can be determined. e.g. 2;η2|μ0 =0.231-0.013+0.010, 2;η4 |μ0 =0.109-0.007+0.007, and 2;η6 |μ0 =0.066-0.006+0.006 for η-meson, 2;η'2|μ0 =0.211-0.017+0.015, 2;η'4 |μ0 =0.093-0.009+0.009, and 2;η'6 |μ0 =0.054-0.008+0.008 for η'-meson. Next, we calculate Dsη() TFFs fη()+(q2) within QCD light-cone sum rules approach up to NLO level. The values at large recoil region are fη+(0) = 0.476-0.036+0.040 and fη'+(0) = 0.544-0.042+0.046. After extrapolating TFFs to the allowable physical regions within the series expansion, we obtain the branching fractions of the semi-leptonic decay, i.e. Ds+η()+ , i.e. B(Ds+η() e+e)=2.346-0.331+0.418(0.792-0.118+0.141)×10-2 and B(Ds+η() μ+μ)=2.320-0.327+0.413(0.773-0.115+0.138)×10-2 for = (e, μ) channels respectively. And in addition to that, the mixing angle for η-η' with and ratio for the different decay channels Rη'/η are given, which show good agreement with the recent BESIII measurements.