Measurement of higher-order multipole amplitudes in (3686)→γc1,2 with c1,2γ J/ and search for the transition ηc(2S)γ J/

Abstract

Using 106~million (3686) events collected with the BESIII detector, we measure multipole amplitudes for the decay (3686)→γc1,2γγ J/ beyond the dominant electric-dipole amplitudes. The normalized magnetic-quadrupole amplitude for (3686)→γc1,2→γγ J/ and the normalized electric-octupole amplitudes for (3686)rightarrowγc2,~c2→γ J/ are determined. The M2 amplitudes for (3686)→γc1 and c1,2→γ J/ are found to differ significantly from zero and are consistent with theoretical predictions. We also obtain the ratios of M2 contributions of (3686) and J/ decays to c1,2, b21/b22 = 1.350.72 and a21/a22 = 0.6170.083, which agree well with theoretical expectations. By considering the multipole contributions of c1,2, we measure the product branching fractions for the cascade decays (3686)→γc0,1,2γγ J/ and search for the process ηc(2S)γ J/ through (3686)→γηc(2S). The product branching fraction for (3686)→γc0γγ J/ is 3σ larger than published measurements, while those of (3686)rightarrowγc1,2γγ J/ are consistent. No significant signal for the decay (3686)γ ηc(2S)γ γ J/ is observed, and the upper limit of the product branching fraction at the 90\% confidence level is determined.