A novel method of reconstructing semileptonic B decays

Abstract

Semileptonic decays of charged and neutral B mesons play a critical role in the determination of the magnitudes of the CKM-matrix elements Vcb and Vub, and in the test of the lepton universality which is a basic assumption of the Standard Model. Due to the missing neutrino in the semileptonic decays, the measurements depend strongly on the tag efficiency of the B meson in the recoil side which is at a few per mille to a few per cent level, and this values a limiting factor for high precision measurement and high sensitivity test mentioned above. We develop a novel method of reconstructing semileptonic decays of the B mesons by introducing the B momentum information calculated from the B decay vertex and the interaction point, as well as the kinematic information of e+e- BB at the B-factories such as BaBar, Belle, and Belle II. As this method does not depend on the reconstruction of the B meson in the recoil side, the gain in the efficiency could be as large as two orders of magnitudes. This makes high precision measurement of CKM-matrix elements |Vcb| and |Vub| and high precision test of lepton universality at B-factories more promising. We present the algorithms for the semileptonic decays of neutral and charged B mesons separately, as they are affected by the magnetic field in the detector differently.