Addressing the lightest S-wave strange K0*(700)/κ resonance in four-body semileptonic Bs0 K0π+ -ν decays

Abstract

As the lightest strange scalar resonance, K0*(700) (also called κ) has a large width and resides close to the Kπ threshold, leading to a longstanding debate about its internal structure. Within the framework of the conventional quark-antiquark (qq) picture, this paper attempts to research the behaviors of K0*(700) resonance in the four-body final state decays. Firstly, we investigates the K0*(700) resonance one twist-2 and two twist-3 light-cone distribution amplitudes (LCDAs), i.e. ϕ2;K0*(700)(x, μ) and ϕ3;K0*(700)p;σ(x, μ) by constructing light-cone harmonic oscillator model. For the longitudinal distribution characteristics of the twist-2 LCDA, two typical parametrization schemes, i.e. φ2;K0*(700) (S1)(x) and φ2;K0*(700) (S2)(x), are adopted in this paper. Meanwhile, it has enriched theoretical predictions for the first ten-order LCDAs ξ-moments. Subsequently, we apply the QCD light-cone sum rules approach to compute the Bs0 K0*(700) transition form factors (TFFs) f Bs0 K0*(700)(q2) and f T Bs0 K0*(700)(q2) by taking into account the perturbative O(αs) corrections to the twist-2 LCDAs terms. By using the simplified series expansion parameterization, these TFFs are extrapolated over the full physical region. Then, we calculate the differential decay widths and branching fractions for four-body semileptonic decay Bs0 K0π+ -ν with = (e, μ, τ) via the S-wave K0*(700) resonance, respectively. We expect that the obtained prediction results will provide valuable insights for future experiments and theoretical research.