Same-Sign Tetralepton Signature at μTRISTAN

Abstract

Naturally tiny neutrino masses can be explained by the low scale seesaw with heavy neutral lepton N coupling to the neutrinophilic Higgs doublet , which obtains a much smaller vacuum expectation value than the standard Higgs doublet . Within this model, the neutrino masses originate from the new Yukawa interaction y L N. In this paper, we propose the novel same-sign tetralepton signature at the 2 TeV same-sign muon mode μ+μ+ of μTRISTAN. We investigate two distinct channels of this signature, which are both generated by the Yukawa interaction y L N. One is from the pair production of charged Higgs μ+μ+ H+ H+ μ+N +μ+ N μ+ μ+ jj + μ+ μ+ jj 4μ+ + 4j, and the other one is from the single production of charged Higgs μ+μ+ μ+ N H+ μ+N +μ+ N μ+ μ+ jj + μ+ μ+ jj 4μ+ + 4j. We then perform a detailed simulation of this same-sign tetralepton signature, and obtain the promising region at μTRISTAN.