Exploring Fermionic Multiplet Dark Matter through Precision Measurements at the CEPC
Abstract
New physics could be explored through loop effects by the precision measurements at the Circular Electron Positron Collider due to its clean collision environment and high luminosity. In this work, we focus on two dark matter models that involve additional electroweak fermionic multiplets. We calculate their one-loop corrections to five processes, i.e. e+e- μ+μ-, ~Zh, ~ZZ, ~W+W-, and Zγ, and investigate the corresponding signatures at CEPC with the projected sensitivity. We find that the detectable parameter regions of these processes are complementary. The combined analysis shows that the mass of dark matter m01 in these two models can be probed up to 150~GeV and 450 GeV at a 95\% confidence level, respectively.
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