Measurements of the mass difference m(B0)-m(B+) and the energy dependence of the cross-section ratio σ(e+e- B0B0) / σ(e+e- B+B-) at Belle and Belle II
Abstract
Using data samples collected by the Belle and Belle II experiments at the (4S) resonance with integrated luminosities of 571 fb-1 and 365 fb-1, respectively, we measure the pseudoscalar B-meson mass difference to be m(B0)-m(B+) = (0.4950.0240.005) MeV/c2. The results are based on a simultaneous fit to the variable Mbc, which is related to the B momentum, for B0 and B+ candidates; and to the energy dependence of R=σ(e+e- B0B0) / σ(e+e- B+B-), which is measured using changes in the average center-of-mass energy over the data taking periods. The phase-space hypothesis R=(pB0/pB+)3, upon which previous measurements rely, is strongly disfavored by our fit; the measured mass-difference value for the phase-space hypothesis also differs significantly from our measurement. We constrain R in a broader energy range than covered by the direct measurement and extract the energy dependence of R in the range from the BB threshold up to 10.59 GeV. We interpret the results using a phenomenological model and constrain the parameters of the BB potential in the isovector channel.
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