Search for doubly charged scalars in type-II seesaw mechanism through photon fusion at the LHC

Abstract

Small neutrino masses can be generated through the well-known seesaw mechanisms, among which the type-II scenario predicts a triplet scalar with doubly charged components. Except for the Drell-Yan production at the Large Hadron Collider (LHC), the doubly charged scalars can also be produced through photon fusion along with ultraperipheral collision of protons, the outgoing protons from which can be detected by forward detectors at the LHC, providing a promising way to explore related new physics. We study the pair production through such processes at the 14 TeV LHC, focusing on the final states of μ+μ+μ-μ- and e+e+e-e- under normal (NH) and inverted hierarchy (IH) of the neutrino mass spectra, respectively. Promising sensitivity can be reached via our proposed search strategy. With luminosity of 36.1 fb-1(100 fb-1), m430(520) GeV can be excluded at 95% C.L. under the NH via μ+μ+μ-μ- states searching, while the mass bound can be extended to 730(880) GeV under the IH via e+e+e-e- states. The exclusion limits on m can be improved up to 1 TeV and even higher with integrated luminosity accumulated to 3 ab-1.