The decays B (2S)π(K),ηc(2S)π(K) in the pQCD approach beyond the leading-order

Abstract

Two body B meson decays involving the radially excited meson (2S)/ηc(2S) in the final states are studied by using the perturbative QCD (pQCD) approach. We find that: (a) The branching ratios for the decays involving K meson are predicted as Br(B+(2S)K+)=(5.37+1.85-2.22)×10-4, Br(B0(2S)K0)=(4.98+1.71-2.06)×10-4, Br(B+ηc(2S)K+)=(3.54+3.18-3.09)×10-4, which are consistent well with the present data when including the next-to-leading-order (NLO) effects. Here the NLO effects are from the vertex corrections and the NLO Wilson coefficients. The large errors in the decay B+ηc(2S)K+ are mainly induced by using the decay constant fηc(2S)=0.243+0.079-0.111 GeV with large uncertainties. (b) While there seems to be some room left for other higher order corrections or the non-perturbative long distance contributions in the decays involving π meson, Br(B+(2S)π+)=(1.17+0.42-0.50)×10-5, Br(B0(2S)π0)=0.54+0.20-0.23×10-5, which are smaller than the present data. The results for other decays can be tested at the running LHCb and forthcoming Super-B experiments. (c) There is no obvious evidence of the direct CP violation being seen in the decays B (2S)π(K), ηc(2S)π(K) in the present experiments, which is supported by our calculations. If a few percent value is confirmed in the future , it would indicate new physics definitely.