Is fX(1500) observed in the B π(K)KK decays 0(1450)?

Abstract

We suggest that the uncertain state fX(1500) observed by Belle and BaBar more than a decade ago, which has been viewed as a single scalar or a combination of several even spin resonances, is the vector 0(1450) reported recently by LHCb. Adopting the perturbative QCD approach, we determine the di-kaon distribution amplitudes with the 0(1450) resonance from the LHCb data for the quasi-two-body decays B π^0(1450)πK+K-. It is then shown that the B+ K+K+K- decay spectrum around the invariant mass M(K+K-) 1.5~ GeV measured by BaBar can be well described by the resonant contribution from 0(1450). The broad structure in the B+ K+ KSKS spectrum around the invariant mass 1.5~ GeV of a KSKS pair, which 0(1450) cannot decay into because of Bose-Einstein statistics, can be accounted for by a nonresonant S-wave contribution alone. The branching fractions and/or the direct CP asymmetries of the B π^0(1450)πK+K-, B+ K+0(1450) K+K+K- and B0 K00(1450) K0K+K- modes are predicted, which can be tested at the ongoing LHCb and Belle-II experiments. We encourage experimental colleagues to scrutinize our postulation by analyzing relevant data with higher precision.