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Partially Acoustic Dark Matter, Interacting Dark Radiation, and Large Scale Structure

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arxiv 1609.03569 v2 pith:LUDVZ6YZ submitted 2016-09-12 astro-ph.CO hep-ph

Partially Acoustic Dark Matter, Interacting Dark Radiation, and Large Scale Structure

classification astro-ph.CO hep-ph
keywords darkcomponentmatterradiationcoldlargesubdominantacoustic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The standard paradigm of collisionless cold dark matter is in tension with measurements on large scales. In particular, the best fit values of the Hubble rate $H_0$ and the matter density perturbation $\sigma_8$ inferred from the cosmic microwave background seem inconsistent with the results from direct measurements. We show that both problems can be solved in a framework in which dark matter consists of two distinct components, a dominant component and a subdominant component. The primary component is cold and collisionless. The secondary component is also cold, but interacts strongly with dark radiation, which itself forms a tightly coupled fluid. The growth of density perturbations in the subdominant component is inhibited by dark acoustic oscillations due to its coupling to the dark radiation, solving the $\sigma_8$ problem, while the presence of tightly coupled dark radiation ameliorates the $H_0$ problem. The subdominant component of dark matter and dark radiation continue to remain in thermal equilibrium until late times, inhibiting the formation of a dark disk. We present an example of a simple model that naturally realizes this scenario in which both constituents of dark matter are thermal WIMPs. Our scenario can be tested by future stage-IV experiments designed to probe the CMB and large scale structure.

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