Abstract
We consider the indirect detection of dark matter that is captured in the Sun and subsequently annihilates to long-lived dark mediators. If these mediators escape the Sun before decaying, they can produce striking gamma ray signals, either via the decay of the mediators directly to photons, or via bremsstrahlung and hadronization of the mediator decay products. Using recent measurements from the HAWC Observatory, we determine model-independent limits on heavy dark matter that are orders of magnitude more powerful than direct detection experiments, for both spin-dependent and spin-independent scattering. We also consider a well-motivated model in which fermionic dark matter annihilates to dark photons. For such a realistic scenario, the strength of the solar gamma ray constraints are reduced, compared to the idealistic case, because the dark matter capture cross section and mediator lifetime are related. Nonetheless, solar gamma ray constraints enable us to exclude a previously unconstrained region of dark photon parameter space.
Highlights
The quest to reveal the true nature of dark matter (DM) is a forefront goal of modern science
Despite compelling cosmological evidence that allows us to infer the distribution of DM in the Universe, we have little information about the particles that constitute this matter, beyond the fact that they are not found within the standard model (SM), and their interactions with regular, SM matter must be very weak
Model-independent results In Fig. 2 we show the SD cross section excluded by the HAWC gamma ray data for various mediator decay channels, in agreement with [67,95]
Summary
The quest to reveal the true nature of dark matter (DM) is a forefront goal of modern science. Leane et al [59] demonstrated that gamma ray data from Fermi-LAT [65,66] and HAWC [67,68] can be used to place powerful limits on DM annihilation to secluded mediators, in the case of a SD scattering cross section, surpassing direct detection constraints by many orders of magnitude. [59] we shall assume that the DM-nucleon scattering cross section is energy independent, that the capture, annihilation, and decay rates are in general unrelated, and that the mediators decay between the Sun and the Earth. While these model-independent limits are very strong, they represent a simplistic and perhaps overly optimistic scenario.
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