Observation of charmed strange meson pair production in (2S) decays and in e+e- annihilation at s = 10.52~ GeV

Abstract

We observe the process (2S) Ds(*)+ DsJ- and continuum production e+e- Ds(*)+ DsJ- at s = 10.52 GeV (and their charge conjugates) using the data samples collected by the Belle detector at KEKB, where DsJ- is Ds1(2536)- or D*s2(2573)-. Both DsJ- states are identified through their decay into KD(*). We measure the products of branching fractions B((2S) Ds(*)+ DsJ-) B(DsJ- K D(*)) and the Born cross sections σ Born(e+e- Ds(*)+ DsJ-) B(DsJ- K D(*)), and then compare the ratios R1 B((2S) Ds(*)+ DsJ-)/ B((2S)μ+μ-) for (2S) decays and R2 σ Born(e+e- Ds(*)+DsJ-)/σ Born(e+e- μ+μ-) for continuum production. We obtain R1/R2 = 9.7 2.3 1.1, 6.8 2.1 0.8, 10.2 3.3 2.5, and 3.4 2.1 0.5 for the Ds+ Ds1(2536)-, Ds*+ Ds1(2536)-, Ds+ Ds2*(2573)-, and Ds*+ Ds2*(2573)- final states in the DsJ- K- D(*)0 modes, respectively. Therefore, the strong decay is expected to dominate in the (2S) Ds(*)+DsJ- processes. We also measure the ratios of branching fractions B(Ds1(2536)- KS0 D*(2010)-)/ B(Ds1(2536)- K- D*(2007)0) = 0.48 0.07 0.02 and B(Ds2*(2573)- KS0 D-)/ B(Ds2*(2573)- K-D0) = 0.49 0.10 0.02, which are consistent with isospin symmetry. The second ratio is the first measurement of this quantity. Here, the first uncertainties are statistical and the second are systematic.