Prospects for Dark Boson at the LHC

Non-Abelian vector boson dark matter(DM), arising from an $SU(2)_N$ extension of the Standard Model(SM) has been studied. The DM is stabilized by imposing an extra discrete global $S^{'}$ charge, which gives rise to an unbroken $S=S^{'}+T_{3N}$ even when $SU(2)_N$ is completely broken. This model, apart from a single-component DM also offers a two-component DM augmented by a scalar and a vector boson, which lives over a large parameter space evading strong direct search bounds. Apart from potential DM candidates, this model also explains the generation of light neutrino masses through the $inverse$ $seesaw$ $mechanism$. We have computed tree-unitarity bound to limit the scalar mass spectrum in our model. Phenomenological aspects of the model have been discussed. Further, we have analyzed the possible collider signatures at the Large Hadron Collider (LHC) and its future implications.