Exotic colored scalars at the LHC

Abstract

We study the phenomenology of exotic color-triplet scalar particles X with charge |Q|=2/3, 4/3,5/3,7/3,8/3 and 10/3. If X is a non-singlet of SU(2)W representation, mass splitting within the multiplet allows for cascade decays of the members into the lightest state. We study examples where the lightest state, in turn, decays into a three-body W jj final state, and show that in such case the entire multiplet is compatible with existing direct collider searches and indirect precision tests down to mX250~GeV. However, bound states S, made of XX pairs at mS≈2mX, form under rather generic conditions and their decay to diphoton can be the first discovery channel of the model. Furthermore, for SU(2)W-non-singlets, the mode S W+W- may be observable and the width of Sγγ and S jj may appear large as a consequence of mass splittings within the X-multiplet. As an example we study in detail the case of an SU(2)W quartet, finding that mX450~GeV is allowed by all current searches.