Abstract
The $DK$ interaction is strong enough to form a bound state, the $D_{s0}^*(2317)$. This in turn begs the question of whether there are bound states composed of several charmed mesons and a kaon. Previous calculations indicate that the three-body $DDK$ system is probably bound, where the quantum numbers are $J^P = 0^{-}$, $I=\tfrac{1}{2}$, $S = 1$ and $C = 2$. The minimum quark content of this state is $cc\bar{q}\bar{s}$ with $q=u,d$, which means that, if discovered, it will be an explicitly exotic tetraquark. In the present work. we apply the Gaussian Expansion Method to study the $DDDK$ system and show that it binds as well. The existence of these three and four body states is rather robust with respect to the $DD$ interaction and subleading (chiral) corrections to the $DK$ interaction. If these states exist, it is quite likely that their heavy quark symmetry counterparts exist as well. These three-body $DDK$ and four-body $DDDK$ molecular states could be viewed as counterparts of atomic nuclei, which are clusters of nucleons bound by the residual strong force, or chemical molecules, which are clusters of atoms bound by the residual electromagnetic interaction.
Highlights
In 2003 the BABAR collaboration discovered the DÃs0ð2317Þ [1],1 a strange-charmed scalar meson, the observation of which was subsequently confirmed by CLEO [2] and Belle [3]
It is quite likely that their heavy quark symmetry counterparts exist as well. These three-body DDK and four-body DDDK molecular states could be viewed as counterparts of atomic nuclei, which are clusters of nucleons bound by the residual strong force, or chemical molecules, which are clusters of atoms bound by the residual electromagnetic interaction
Nowadays we consider the WT interaction as the leading order (LO) term in the chiral expansion of the DK potential [33,34]. In this regard it is interesting to notice that even though LO chiral perturbation theory (ChPT) indicates that the I 1⁄4 0 DK interaction in S-wave is attractive, it happens that the next-to-leading order (NLO) correction is weakly repulsive, see, e.g., Ref. [33]
Summary
In 2003 the BABAR collaboration discovered the DÃs0ð2317Þ [1],1 a strange-charmed scalar meson, the observation of which was subsequently confirmed by CLEO [2] and Belle [3]. The DÃs0 can be explained as a dynamically generated state arising from the WeinbergTomozawa (WT) DK interaction [18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38] This has led to the prevailing idea that the DÃs0ð2317Þ is a molecular state, a hypothesis which has been further supported by a series of Lattice QCD simulations [39,40,41,42,43].
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