Implications of the Fermi-LAT Pass 8 Galactic Center Excess on Supersymmetric Dark Matter

TL;DR

This paper analyzes the Galactic Center gamma-ray excess using updated Fermi-LAT data, assesses its compatibility with dark matter models, especially supersymmetric neutralinos, and identifies viable parameter regions consistent with current experimental constraints.

Contribution

It constructs a covariance matrix of systematic uncertainties affecting the GCE and re-evaluates MSSM parameter space, considering recent experimental limits and spectral shifts.

Findings

Models with annihilating dark matter remain consistent with the GCE.

Neutralino masses between 85-220 GeV can explain the excess.

Viable low fine-tuning MSSM models are identified.

Abstract

The Fermi Collaboration has recently updated their analysis of gamma rays from the center of the Galaxy. They reconfirm the presence of an unexplained emission feature which is most prominent in the region of $1-10$ GeV, known as the Galactic Center GeV excess (GCE). Although the GCE is now firmly detected, an interpretation of this emission as a signal of self-annihilating dark matter (DM) particles is not unambiguously possible due to systematic effects in the gamma-ray modeling estimated in the Galactic Plane. In this paper we build a covariance matrix, collecting different systematic uncertainties investigated in the Fermi Collaboration's paper that affect the GCE spectrum. We show that models where part of the GCE is due to annihilating DM can still be consistent with the new data. We also re-evaluate the parameter space regions of the minimal supersymmetric Standard Model (MSSM) that can contribute dominantly to the GCE via neutralino DM annihilation. All recent constraints from DM direct detection experiments such as PICO, LUX, PandaX and Xenon1T, limits on the annihilation cross section from dwarf spheroidal galaxies and Large Hadron Collider limits are considered in this analysis. Due to a slight shift in the energy spectrum of the GC excess with respect to the previous Fermi analysis, and the recent limits from direct detection experiments, we find a slightly shifted parameter region of the MSSM compared to our previous analysis that is consistent with the GCE. Neutralinos with a mass between $85-220$ GeV can describe the excess via annihilation into a pair of $W$-bosons or top quarks. Remarkably, there are low fine-tuning models among the regions that we have found. The complete set of solutions will be probed by upcoming direct detection experiments and with dedicated searches in the upcoming data of the Large Hadron Collider.