Light-cone sum rules with B-meson distribution amplitudes for the B p form factors in B-mesogenesis models

Abstract

New decay modes of B-meson into a baryon and invisible dark antibaryon Ψ are among the most distinctive signatures of the B-mesogenesis scenario. We concentrate on the proton mode and consider two versions of the underlying interaction of Ψ with quarks, the so-called models (d) and (b). To estimate the width of the B+ p Ψ decay, we obtain the B+ p transition form factors, applying QCD light-cone sum rules (LCSRs) with B-meson distribution amplitudes with an accuracy up to twist-5, while interpolating the proton with a current. This method is independent of the previously applied one, which was based on the nucleon distribution amplitudes. We estimate the partial width of the B+ p Ψ decay as a function of the dark antibaryon mass. Furthermore, we use the ratio of this width to the inclusive B XN Ψ width, the latter predicted earlier using the heavy quark expansion method. This ratio, which is independent of the effective coupling, when combined with the minimal inclusive branching fraction of O(10-4), necessary for the feasibility of B-mesogenesis, yields lower limits on the B+ p Ψ branching fraction. We confront these limits with the most recent upper bounds obtained from BaBar and Belle/Belle II searches for the decays of B+-meson into a proton and missing energy. The comparison indicates that experimental upper bounds on the branching fraction of B p Ψ at the level of 10-8-10-7 are needed for a decisive probe of this invisible mode of B decays.