X(3872) and Y(4140) using diquark-antidiquark operators with lattice QCD

Abstract

We perform a lattice study of charmonium-like mesons with JPC=1++ and three quark contents cc du, cc( uu+ dd) and cc ss, where the later two can mix with cc. This simulation with Nf=2 and mπ=266 MeV aims at the possible signatures of four-quark exotic states. We utilize a large basis of cc, two-meson and diquark-antidiquark interpolating fields, with diquarks in both anti-triplet and sextet color representations. A lattice candidate for X(3872) with I=0 is observed very close to the experimental state only if both cc and D D* interpolators are included; the candidate is not found if diquark-antidiquark and D D* are used in the absence of cc. No candidate for neutral or charged X(3872), or any other exotic candidates are found in the I=1 channel. We also do not find signatures of exotic cc ss candidates below 4.3 GeV, such as Y(4140). Possible physics and methodology related reasons for that are discussed. Along the way, we present the diquark-antidiquark operators as linear combinations of the two-meson operators via the Fierz transformations.