Observation of an Altered a0(980) Line shape in D+ → π+ηη

Abstract

Using 20.3~ fb-1 of e+e- collision data collected with the BESIII detector at s=3.773~ GeV, we perform the first amplitude analysis of the decay D+π+ηη. The intermediate process D+ a0(980)+η, a0(980)+π+η, is observed as the only significant component in the amplitude analysis, and its branching fraction is measured to be (3.670.12 stat0.06 syst)×10-3. The π+η mass spectrum associated with a0(980)+η production exhibits a line shape that differs substantially from those observed in D(s) a0(980)π and D0 a0(980)-e+νe decays. We examine several conventional descriptions of the a0(980) amplitude, including Flatté, dispersively modified Flatté, T-matrix, and K-matrix parameterizations. With reference a0(980) parameters, neither these models nor their extensions including additional small resonant or non-resonant amplitudes reproduce the observed line shape satisfactorily. When the a0(980) parameters are allowed to float, satisfactory fits can be obtained, but the pole mass is driven well above the K K threshold, inconsistent with the near-threshold character of the a0(980). The results reveal a tension between fit quality and the physical pole position in conventional direct-production amplitude models.