More on heavy tetraquarks in lattice QCD at almost physical pion mass

Abstract

We report on our progress in studying exotic, heavy tetraquark states, qq Q Q. Using publicly available dynamical nf =2+1 Wilson-Clover gauge configurations, generated by the PACS-CS collaboration, with pion masses 164, 299 and 415 MeV, we extend our previous analysis to heavy quark components containing heavier than physical bottom quarks Q Q= b b or Q Q= b b, charm and bottom quarks c b and also only charm quarks c c. Throughout we employ NRQCD and relativistic heavy quarks for the heavier than bottom, bottom and charm quarks. Using our previously established diquark-antidiquark and meson-meson operator basis we comment in particular on the dependence of the binding energy on the mass of the heavy quark component Q Q, with heavy quarks ranging from mQ=0.85… 6.3· mb. In the heavy flavor non-degenerate case, Q Q, and especially for the tetraquark channel ud c b, we extend our work to utilize a 3× 3 GEVP to study the ground and threshold states thereby enabling a clear identification of possible binding. Finally, we present initial work on the Q Q= c c system where a much larger operator basis is available in comparison to flavor combinations with NRQCD quarks.