Branching ratios and CP asymmetries of B0 ηc f0 in the improved perturbative QCD formalism

Abstract

Motivated by the idea of fragmented scalar glueball, we investigate the decays B0 ηc f0 within the improved perturbative QCD (iPQCD) framework by including the known next-to-leading order corrections. Here, B0 and f0 denote the neutral Bd,s0 mesons and the light scalar mesons f0(500, 980, 1370, 1500) under the q q assignment. The CP-averaged branching ratios (BRs) and the CP asymmetries of B0 ηc f0 are evaluated with the f0(500)[f0(1370)]-f0(980)[f0(1500)] mixing in quark-flavor basis. For effective comparisons with the near-future measurements, we further derive the B0 ηc f0 ( π+ π-/K+ K-) BRs under the narrow-width approximation. BR(Bs0 ηc f0(980) ( π+ π-))= (2.87+1.38-1.29) × 10-4 and BR(Bd0 ηc f0(500)( π+π-))/ BR(Bs0 ηc f0(980)( π+π-)) = (12+8-7)\% obtained in the iPQCD formalism agree with the available measurements and/or predictions within uncertainties. Large BRs of Bs0 ηc f0(1500) ( π+ π-/K+ K-) and large direct CP asymmetries of B0 ηc f0(1370, 1500) are accessible in the LHCb and Belle-II experiments. The experimental tests of these iPQCD predictions would help us to understand the nature of these light scalars more deeply and provide evidences to decipher f0(1500) as a primary or fragmented scalar glueball potentially.