Solar $\gamma$-rays as a Complementary Probe of Dark Matter
Phys. Rev. D 96, 063010 (2017) We show that observations of solar $\gamma$-rays offer a novel probe of dark matter in scenarios where interactions with the visible sector proceed via a long-lived mediator. As a proof of principle, we demonstrate that there exists a class of models which yield solar...
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| Format | Journal Article |
| Language | English |
| Published |
23.03.2017
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| Abstract | Phys. Rev. D 96, 063010 (2017) We show that observations of solar $\gamma$-rays offer a novel probe of dark
matter in scenarios where interactions with the visible sector proceed via a
long-lived mediator. As a proof of principle, we demonstrate that there exists
a class of models which yield solar $\gamma$-ray fluxes observable with the
next generation of $\gamma$-ray telescopes, while being allowed by a variety of
current experimental constraints. The parameter space allowed by big bang
nucleosynthesis and beam dump experiments naturally leads to mediator lifetimes
sufficient to produce observable solar $\gamma$-ray signals. The model allows
for solar $\gamma$-ray fluxes up to orders of magnitude larger compared to
dwarf spheroidal galaxies, without reaching equilibrium between dark matter
annihilation and capture rate. Our results suggest that solar $\gamma$-ray
observations are complementary, and in some cases superior, to existing and
future dark matter detection efforts. |
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| AbstractList | Phys. Rev. D 96, 063010 (2017) We show that observations of solar $\gamma$-rays offer a novel probe of dark
matter in scenarios where interactions with the visible sector proceed via a
long-lived mediator. As a proof of principle, we demonstrate that there exists
a class of models which yield solar $\gamma$-ray fluxes observable with the
next generation of $\gamma$-ray telescopes, while being allowed by a variety of
current experimental constraints. The parameter space allowed by big bang
nucleosynthesis and beam dump experiments naturally leads to mediator lifetimes
sufficient to produce observable solar $\gamma$-ray signals. The model allows
for solar $\gamma$-ray fluxes up to orders of magnitude larger compared to
dwarf spheroidal galaxies, without reaching equilibrium between dark matter
annihilation and capture rate. Our results suggest that solar $\gamma$-ray
observations are complementary, and in some cases superior, to existing and
future dark matter detection efforts. |
| Author | Lucente, Michele Backović, Mihailo Arina, Chiara Heisig, Jan |
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| BackLink | https://doi.org/10.48550/arXiv.1703.08087$$DView paper in arXiv https://doi.org/10.1103/PhysRevD.96.063010$$DView published paper (Access to full text may be restricted) |
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| Snippet | Phys. Rev. D 96, 063010 (2017) We show that observations of solar $\gamma$-rays offer a novel probe of dark
matter in scenarios where interactions with the... |
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| Title | Solar $\gamma$-rays as a Complementary Probe of Dark Matter |
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