Using γ-ray observations of dwarf spheroidal galaxies to test the possible common origin of the W-boson mass anomaly and the GeV γ-ray/antiproton excesses

Abstract

A recent result from Fermilab suggests that the measured W-boson mass deviates from the prediction of the Standard Model (SM) with a significance of >7σ, and there may exist new physics beyond the SM. It is proposed that the inert two Higgs doublet model (i2HDM) can well explain the new W-boson mass. Meanwhile, the lightest neutral scalar S in the i2HDM can be stable and play the role of dark matter with a preferred dark matter mass of 54-74 GeV. It is also found that part of the parameter space of this model can explain both the Galactic center GeV gamma-ray excess detected by Fermi-LAT and the GeV antiproton excess detected by AMS-02 through a SS→ WW* annihilation. In this paper, we aim to test the possible common i2HDM origin of the three anomaly/excesses using the Fermi-LAT observations of Milky Way dwarf spheroidal (dSph) galaxies. We perform single and stacking analyses on 19 dSphs that have J-factor measurements. We find that our upper limits are below the favored parameters and seems to be able to exclude the possibility of a common origin of the three anomaly/excesses. However, because the J-factor measurements include relatively large uncertainties, which come from the measurements of stellar kinematics, whether this model could be reliably excluded needs to be further confirmed by future observations.