Double pole structures of $X_1(2900)$ as the $P$-wave $\bar{D}^*K^*$ resonances

TL;DR

This paper investigates the double pole structures of the exotic tetraquark candidate $X_1(2900)$, identifying it as a $P$-wave $ar{D}^*K^*$ resonance, and predicts four new charmed-strange dimeson states.

Contribution

It reveals the double pole structures of $X_1(2900)$ as $P$-wave $ar{D}^*K^*$ resonances and predicts four new isoscalar charmed-strange dimeson states.

Findings

Identified two $P$-wave poles associated with $X_1(2900)$.

Matched the poles with observed $X_0(2900)$ and $X_1(2900)$.

Predicted four new dimeson states near thresholds.

Abstract

We reveal the double pole structures of the manifestly exotic tetraquark state $X_1(2900)$ in the scenario of $P$-wave $\bar{D}^*K^*$ dimeson resonance. We find that the observed enhancement signal associated with $X_1(2900)$ in $B^+ \to D^+D^-K^+$ by LHCb contains two $P$-wave poles denoted as $T_{cs1-}(2900)$ and $T^{\prime}_{cs1-}(2900)$, respectively. After considering the channel couplings among the $\bar{D}K$, $\bar{D}^*K$, $\bar{D}K^*$ and $\bar{D}^*K^*$ and the width of the $K^*$ meson, the masses and widths of the $S$-wave pole $T_{cs0+}(2900)$ and two $P$-wave poles $T_{cs1-}(2900)$ and $T^{\prime}_{cs1-}(2900)$ coincide with those of the $X_0(2900)$ and $X_1(2900)$ remarkably, which provides strong support for identifying $X_0(2900)$ and $X_1(2900)$ as $\bar{D}^{(*)}K^{(*)}$ dimeson states. Furthermore, we extensively calculate all $S$-wave and $P$-wave $\bar{D}^{(*)}K^{(*)}$ systems up to $J=3$ and predict four new isoscalar charmed-strange dimeson-type tetraquark states: an $S$-wave state $T_{cs1+}(2900)$ with quantum number $J^P=1^+$, three $P$-wave states $T_{cs1-}(2760)$ with $J^P=1^-$, $T_{cs0-}(2760)$ with $J^P=0^-$ and $T_{cs2-}(2900)$ with $J^P=2^-$. These near-threshold poles can be searched for at LHCb, Belle II and BESIII.