Abstract
We carry out a systematic study of exotic $QQ^\prime \bar q\bar q$ four-quark states containing distinguishable heavy flavors, $b$ and $c$. Different generic constituent models are explored in an attempt to extract general conclusions. The results are robust, predicting the same sets of quantum numbers as the best candidates to lodge bound states independently of the model used, the isoscalar $J^P=0^+$ and $J^P=1^+$ states. The first state would be strong and electromagnetic-interaction stable while the second would decay electromagnetically to $\bar B D \gamma$. Isovector states are found to be unbound, preventing the existence of charged partners. The interest on exotic heavy-light tetraquarks with non identical heavy-flavors comes reinforced by the recent estimation of the production rate of the isoscalar $bc\bar u \bar d$ $J^P=1^+$ state, two orders of magnitude larger than that of the $bb\bar u\bar d$ analogous state.
Highlights
Among the flavor sectors where four-quark bound states may exist, there is one of particular interest, the so-called exotic heavy-light four-quark sector
We carry out a systematic study of exotic QQ0qqfour-quark states containing distinguishable heavy flavors, b and c
The interest on exotic heavy-light tetraquarks with nonidentical heavy flavors comes reinforced by the recent estimation of the production rate of the isoscalar bcud JP 1⁄4 1þ state, 2 orders of magnitude larger than that of the bbudanalogous state
Summary
Among the flavor sectors where four-quark bound states may exist, there is one of particular interest, the so-called exotic heavy-light four-quark sector. Reference [3] has estimated the mass of the isoscalar JP 1⁄4 0þ bcudstate obtaining a central value 11 MeV below the B D threshold, it is cautioned that the precision of the calculation is not sufficient to determine whether the tetraquark is above or below the corresponding two-meson threshold. This reference has not analyzed the isoscalar bcud JP 1⁄4 1þ state.
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