SIMPle Dark Matter: Self-Interactions and keV Lines
arXiv:1408.6532 · doi:10.1103/PhysRevD.90.095016
Abstract
We consider a simple supersymmetric hidden sector: pure SU(N) gauge theory. Dark matter is made up of hidden glueballinos with mass $m_X$ and hidden glueballs with mass near the confinement scale $Î$. For $m_X \sim 1\,\text{TeV}$ and $Î\sim 100\,\text{MeV}$, the glueballinos freeze out with the correct relic density and self-interact through glueball exchange to resolve small-scale structure puzzles. An immediate consequence is that the glueballino spectrum has a hyperfine splitting of order $Î^2 / m_X \sim 10\,\text{keV}$. We show that the radiative decays of the excited state can explain the observed 3.5 keV X-ray line signal from clusters of galaxies, Andromeda, and the Milky Way.
v1: 6 pages, 2 figures; v2: added references, published version; v3: note added