Constraining the dark matter origin of the halo-like 20 GeV γ-ray excess with the AMS-02 antiproton data

Abstract

Very recently, a significant 20 GeV gamma-ray excess in the Milky Way halo has been reported and a dark matter origin has been suggested. The inferred dark matter parameters are m 0.5-0.8 TeV and σ v (5-8) × 10-25~ cm3~s-1 for the bb channel. If correct, prominent antiproton emission is produced and can be directly tested by the AMS-02 data. In this work we calculate the corresponding antiproton emission and show that the expected flux at 100 GeV is already above the AMS-02 observation. A proper treatment on the antiproton background resulting from the high energy cosmic ray propagation would suggest an annihilation cross section of < 2× 10-26~ cm3~s-1, which is a few× 10 times lower than that needed to interpret the potential signal. We therefore conclude that the 20 GeV gamma-ray excess in the Milky Way halo is not a viable dark matter signal.

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