Possible precise measurements of the X(3872) mass with the e+e-π0γ X(3872) and p pγ X(3872) reactions

Abstract

It was recently proposed that the X(3872) binding energy, the difference between the D0 D*0 threshold and the X(3872) mass, can be precisely determined by measuring the γ X(3872) line shape from a short-distance D*0 D*0 source produced at high-energy experiments. Here, we investigate the feasibility of such a proposal by estimating the cross sections for the e+e-π0γ X(3872) and p pγ X(3872) processes considering the D*0 D*0D0/ D*0D*0 D0 triangle loops. These loops can produce a triangle singularity slightly above the D*0 D*0 threshold. It is found that the peak structures originating from the D*0 D*0 threshold cusp and the triangle singularity are not altered much by the energy dependence introduced by the e+e-π0D*0 D*0 and p p D*0D*0 production parts or by considering a finite width for the X(3872). We find that σ(e+e-π0γ X(3872)) × Br(X(3872)π+π-J/) is O(0.1~ fb) with the γ X(3872) invariant mass integrated from 4.01 to 4.02 GeV and the c.m. energy of the e+e- pair fixed at 4.23 GeV. The cross section σ(p pγ X(3872))× Br(X(3872)π+π-J/) is estimated to be of O(10~ pb). Our results suggest that a precise measurement of the X(3872) binding energy can be done at PANDA.