Heavy Holographic Exotics: Tetraquarks as Efimov States

Abstract

We provide a holographic description of non-strange multiquark exotics as compact topological molecules by binding heavy-light mesons to a tunneling configuration in D8-D 8 that is homotopic to the vacuum state with fixed Chern-Simons number. In the tunneling process, the heavy-light mesons transmute to fermions. Their binding is generic and arises from a trade-off between the dipole attraction induced by the Chern-Simons term and the U(1) fermionic repulsion. In the heavy quark limit, the open-flavor tetraquark exotics QQ q q and Q Q qq, emerge as bound Efimov states in a degenerate multiplet IJπ=(00+ , 01+) with opposite intrinsic Chern-Simons numbers 12. The hidden-flavor tetraquark exotics such as Q Q q q, QQ Q q and QQ Q Q as compact topological molecules are unbound. Other exotics are also discussed.