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arXiv:2405.04838v1 Announce Type: cross
Abstract: The $B^0 \to K^0_S K^+ K^- $ decay amplitude is derived within a quasi-two-body QCD factorization framework in terms of kaon form factors and $B^0$ to two-kaon-transition functions. The final state kaon-kaon interactions in the $S$, $P$, and $D$ waves are taken into account. The unitarity constraints are satisfied for the two kaons in scalar states. It is shown that with few terms of the full decay amplitude one may reach a fair agreement with the total branching fraction and Dalitz-plot projections published in 2010 by the Belle Collaboration and in 2012 by the \textit{BABAR} Collaboration. With~13 free parameters, our model fits the corresponding~422 data with a $\chi^2$ of~583.6 which leads to a $\chi^2$ per degree of freedom equal to 1.43. The dominant branching fraction arises from the $f_0(K^+K^-) K^0_S$ mode with~83.0~\% of the total branching. The next important mode is dominated by $\phi K^0_S$ plus small $\omega K^0_S$ and $\rho^0 K^0_S$ modes with~18.3~\% of the total. Then follows the $a_0^\pm K^\mp$ mode with~6.2~\%. Adding the other smaller modes, the total percentage sum is~107.7~\% which indicates a small interference contribution. In most regions of the Dalitz plot, our model gives rather small $CP$ asymmetry, but in some parts its values can be large and positive or negative. Its predicted total value is equal to $-0.11$~\%. The calculated time dependent {\it CP}-asymmetry parameters agree, within errors, with those obtained by the \textit{BABAR} analysis. Our model amplitude can be the basis for a parametrization in experimental Dalitz plot analyses of LHCb and Belle II Collaborations.