## Vector resonance $X_1(2900)$ and its structure

10 Mar 2021  ·  S. S. Agaev, K. Azizi, H. Sundu ·

The new vector resonance $X_1(2900)$ observed recently by LHCb in the $D^{-}K^{+}$ invariant mass distribution in the decay $B^{+} \to D^{+}D^{-}K^{+}$ is studied to uncover internal structure of this state, and calculate its physical parameters. In the present paper, the resonance $X_1(2900)$ is modeled as an exotic vector state, $J^P=1^-$, built of the light diquark $u^{T}C\gamma_5d$ and heavy antidiquark $\overline{c} \gamma_{\mu}\gamma_5C\overline{s}^{T}$... The mass and current coupling of $X_1(2900)$ are computed using the QCD two-point sum rule approach by taking into account various vacuum condensates up to dimension $10$. The width of the resonance $X_1(2900)$ is saturated by two decay channels $X_1 \to D^{-}K^{+}$ and $X_1 \to \overline{D}^{0}K^{0}$. The strong couplings $g_1$ and $g_2$ corresponding to the vertices $X_1D^{-}K^{+}$ and $X_1\overline{D} ^{0}K^{0}$ are evaluated in the context of the QCD light-cone sum rule method and technical tools of the soft-meson approximation. Results for the mass of the resonance $X_1(2900)$ $m=(2890~\pm 122)~\mathrm{MeV}$, and for its full width $\Gamma _{\mathrm{full}}=(93\pm 13)~\mathrm{MeV}$ are smaller than their experimental values reported by the LHCb collaboration. Nevertheless, by taking into account theoretical and experimental errors of investigations, interpretation of the state $X_1(2900)$ as the vector tetraquark does not contradict to the LHCb data. We also point out that analysis of the invariant mass distribution $D^{+}K^{+}$ in the same decay $B^{+} \to D^{+}D^{-}K^{+}$ may reveal doubly charged four-quark structures $[uc][\overline{s}\overline{d}]$. read more

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High Energy Physics - Phenomenology High Energy Physics - Experiment High Energy Physics - Lattice