Study of e+e- π+π-(1D) at Belle II

Abstract

The bottomonium spectrum, consisting of bound states of a b quark and an anti-b quark, provides an excellent laboratory for probing quantum chromodynamics in the non-perturbative regime. While S and P-wave bottomonium states are well studied experimentally, information on D-wave states remains scarce. We search for D-wave bottomonium state via the decay of a vector bottomonium-like state (10753) in the reaction e+e- π+π- (1D), using 19.6~fb-1 of data collected with the Belle II detector at center-of-mass energies s = 10.653, 10.701, 10.745, and 10.805~GeV, in the vicinity of the (10753) resonance. No significant signals are observed. Upper limits at the 90% credibility level are set on the products of the cross sections and branching fractions, σ[e+e- π+π- 2(1D)] × B[2(1D) γ b1] and σ[e+e- π+π- 3(1D)] × B[3(1D) γ b2], at each center-of-mass energy.