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arxiv: 2305.16431 · v2 · pith:AUL7BC2J · submitted 2023-05-25 · hep-ph · nucl-th

Model independent analysis of femtoscopic correlation functions: An application to the D_(s0)^*(2317)

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classification hep-ph nucl-th
keywords channelsinteractionstateboundcorrelationdatadeterminefunction
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We face the inverse problem of obtaining the interaction between coupled channels from the correlation functions of these channels. We apply the method to the interaction of the $D^0 K^+$, $D^+ K^0$, and $D^+_s \eta$ channels, from where the $D^*_{s0}(2317)$ state emerges. We use synthetic data extracted from an interaction model based on the local hidden gauge approach and find that the inverse problem can determine the existence of a bound state of the system with a precision of about 20 MeV. At the same time, we can determine the isospin nature of the bound state and its compositeness in terms of the channels. Furthermore, we evaluate the scattering length and effective range of all three channels, as well as the couplings of the bound state found to all the components. Lastly, the size parameter of the source function, $R$, which in principle should be a magnitude provided by the experimental teams, can be obtained from a fit to the data with relatively high accuracy. These findings show the value of the correlation function to learn about the meson-meson interaction for systems which are difficult to access in other present facilities.

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Cited by 3 Pith papers

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    hep-ph 2026-07 conditional novelty 5.0

    A unitarized fixed-center approximation predicts a narrow KX(3872) bound state 50 MeV below threshold and a characteristic femtoscopic correlation function.

  2. Correlation function and bound state from the $K D_{s0}^*(2317)$ interaction

    hep-ph 2026-04 unverdicted novelty 5.0

    The K D_s0*(2317) system develops a narrow resonance 40 MeV below threshold under the fixed-center molecular assumption, producing a characteristic correlation function for strong attraction.

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