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arxiv: 1907.02454 · v3 · pith:FQA373AEnew · submitted 2019-07-04 · ✦ hep-ph

Matter Power Spectrum of Light Freeze-in Dark Matter: With or without Self-Interaction

classification ✦ hep-ph
keywords matterdarkfreeze-infree-streamingpowerself-scatteringspectrumcase
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We study the free-streaming effect in a light freeze-in dark matter model. Naturally in the dark sector one can find dark matter related coupling, and such coupling may induce dark matter self-scattering. In case that such scattering is subdominant, the dark matter partition function is not thermal but determined by the freeze-in process, yet its high momentum side is generally also Boltzmann suppressed. We show that the matter power spectrum is very similar to a warm dark matter one in shape. When matched to the current WDM bound, a $24$~keV freeze-in dark matter is ruled out at $2\sigma$ confidence level. In case that the dark matter self-scattering is strong and decouples at a very late time, by a new numerical calculation we show that the early stage Brownian motion indeed protects the power spectrum against free-streaming suppression. However, such an effect cannot be characterized by a free-streaming length alone; we find that the self-scattering decoupling time is another necessary parameter. The currently interested dark matter self-interaction cross section $\sim\text{cm}^2/\text{g}$ is just marginal for such protection to be effective.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. KineticXGPU: A Tensorized Collision Operator for Dark-Sector Self-Scattering

    hep-ph 2026-07 unverdicted novelty 6.0

    Presents a tensorized GPU implementation of the 2-to-2 elastic self-collision operator for dark-sector particles and applies it to a two-source freeze-in scenario where self-interactions erase bimodal features.