In this paper we investigate the projected sensitivity to effective dark
matter (DM) - diboson interaction during the high luminosity Z-pole and 240
GeV runs at the proposed Circular Electron Positron Collider (CEPC). The
proposed runs at the 91.2 GeV e+e− center of mass energy offers an
interesting opportunity to probe effective dark matter couplings to the Z
boson, which can be less stringently tested in non-collider searches. We
investigate the prospective sensitivity for dimension 6 and dimension 7
effective diboson operators to scalar and fermion dark matter. These diboson
operators can generate semi-visible Z boson decay, and high missing
transverse momentum mono-photon signals that can be test efficiently at the
CEPC, with a small and controllable Standard Model γνˉν
background. A projected sensitivity for effective γZ coupling efficient
κγZ​<(1030 GeV)−3, (1970 GeV)−3 for scalar DM,
κγZ​<(360 GeV)−3, (540 GeV)−3 for fermion DM are
obtain for 25 fb−1 and 2.5 ab−1Z-pole luminosities assuming the
optimal low dark matter mass range. In comparison the effective DM-diphoton
coupling sensitivity κγγ​<(590 GeV)−3 for scalar DM,
κγγ​<(360 GeV)−3 for fermion DM are also obtained for
a 5 ab−1 240 GeV Higgs run. We also compare the CEPC sensitivities to
current direct and indirect search limits on these effective DM-diboson
operators.Comment: 10 pages, 7 figures. Dimension-6 diboson operators include