$0^+$ XTZ states from QCD spectral sum rules
Abstract: We review our results in\,\cite{ANR22} for the masses and couplings of $T_{ccqq'}\, (JP=0+)$ states from (inverse) QCD Laplace sum rule (LSR), their ratios ${\cal R}$ and double ratio of sum rules (DRSR) within stability criteria and including Factorized Next-to-Leading Order (FNLO) Perturbative (PT) corrections and Lowest Order (LO) QCD condensates up to $\langle G3 \rangle$. We show that combining ${\cal R}$ and DRSR can provide more precise results. Calibrated to the observed $X_c(3872)$ and $T{1+}_{cc}(3875)$, ${\cal R}$ combined with DRSR lead to a more precise prediction of $M_{T{0+}_{cc}}=3883(3)~\rm{MeV}$. In a similar way, calibrated to the new prediction of $T{0+}_{cc}$ ${\cal R} \oplus$DRSR lead to the improved mass predictions: $M_{T{0+}_{cc\bar{s}\bar{u}}}=3927(6)~\rm{MeV}$ and $M_{T{0+}_{cc\bar{s}\bar{s}}}=3993(11)~\rm{MeV}$. We extend our analysis to the bottom sector and compare our results with the ones from different LSR predictions and some other determinations (lattice, quark and potential models,...) in the literature.
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