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We propose that dark matter is dominantly comprised of atomic bound states. We build a simple model and map the parameter space that results in the early universe formation of hydrogen-like dark atoms. We find that atomic dark matter has interesting implications for cosmology as well as direct detection: Protohalo formation can be suppressed below Mₑ₎ₓ₎ 10³ - 10⁶ M_ for weak scale dark matter due to Ion-Radiation interactions in the dark sector. Moreover, weak-scale dark atoms can accommodate hyperfine splittings of order 100, consistent with the inelastic dark matter interpretation of the DAMA data while naturally evading direct detection bounds.
Kaplan et al. (Wed,) studied this question.
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