Double pole structures of X1(2900) as the P-wave D*K* resonances

Abstract

We reveal the double pole structures of the manifestly exotic tetraquark state X1(2900) in the scenario of P-wave D*K* dimeson resonance. We find that the observed enhancement signal associated with X1(2900) in B+ D+D-K+ by LHCb contains two P-wave poles denoted as Tcs1-(2900) and Tcs1-(2900), respectively. After considering the channel couplings among the DK, D*K, DK* and D*K* and the width of the K* meson, the masses and widths of the S-wave pole Tcs0+(2900) and two P-wave poles Tcs1-(2900) and Tcs1-(2900) coincide with those of the X0(2900) and X1(2900) remarkably, which provides strong support for identifying X0(2900) and X1(2900) as D(*)K(*) dimeson states. Furthermore, we extensively calculate all S-wave and P-wave D(*)K(*) systems up to J=3 and predict four new isoscalar charmed-strange dimeson-type tetraquark states: an S-wave state Tcs1+(2900) with quantum number JP=1+, three P-wave states Tcs1-(2760) with JP=1-, Tcs0-(2760) with JP=0- and Tcs2-(2900) with JP=2-. These near-threshold poles can be searched for at LHCb, Belle II and BESIII.