LHC di-dijet excesses as signals of fourth-generation tetraquarks

Abstract

We postulate that the excesses of di-dijet events observed at the LHC are attributed to the production of four fourth-generation quarks b' with a mass mb'≈ 2 TeV at few-TeV scales. The di-dijet signals around the four-jet invariant mass m4j≈ 8 TeV arise from a resonant b'b' b' b' tetraquark production, where the dijet resonances of masses about 2 TeV correspond to b' b' first excited states (color-octet scalars with the principal quantum number n=2) in a Yukawa potential created by Higgs boson exchanges. Those around m4j≈ 3.6 TeV originate from a non-resonant b'b' b' b' production, where the dijet resonances of masses 0.95 TeV correspond to b' b' ground states (color-octet vectors with n=1). It is shown that a b' b' system with mb'≈ 2 TeV in the Yukawa potential does generate the aforementioned bound state spectrum. We then illustrate that the observed excesses can be accommodated in our setup by translating the fourth-generation model to the effective theories containing color-octet scalars and vectors available in the literature. The di-dijet events at m4j= 6.6 TeV and 5.8 TeV with dijet masses about 2 TeV can also be interpreted in the same framework. Simply speaking, our scenario can be viewed as a TeV-scale version of the search for a fully charmed tetraquark via the four-muon channels X(6900) (c c)(c c) 4μ at a GeV scale.