LHC mono-W/Z searches with a new channel-separation method can exclude large ranges of neutral and charged mass splittings in the 70-75 GeV IDM dark matter scenario that fits astrophysical excesses.
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MAGIX@MESA can probe mediator-electron couplings down to O(10^{-4}) for few-to-hundred MeV masses by optimizing asymmetric kinematics in Bethe-Heitler production with 55 and 105 MeV beams.
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LHC Mono-$W/Z$ Signatures as a Probe for Dark Matter Explanations of Astrophysical Excesses
LHC mono-W/Z searches with a new channel-separation method can exclude large ranges of neutral and charged mass splittings in the 70-75 GeV IDM dark matter scenario that fits astrophysical excesses.
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Sensitivity of MAGIX@MESA to BSM effects via Bethe-Heitler pair production
MAGIX@MESA can probe mediator-electron couplings down to O(10^{-4}) for few-to-hundred MeV masses by optimizing asymmetric kinematics in Bethe-Heitler production with 55 and 105 MeV beams.