COZMIC. II. Cosmological Zoom-in Simulations with Fractional non-CDM Initial Conditions

Abstract

We present 24 cosmological dark matter (DM)-only zoom-in simulations of a Milky Way analog with initial conditions appropriate for scenarios where non-cold dark matter (NCDM) is a fraction of the total DM abundance (f-NCDM models) as the second installment of the COZMIC suite. We initialize our simulations using transfer functions, Tf-NCDM(k)Pf-NCDM(k)/PCDM(k) (where P(k) is the linear matter power spectrum), with an initial suppression similar to thermal-relic warm dark matter (WDM) followed by a constant-amplitude plateau. We simulate suppression wavenumbers [22.8,~ 32.1,~ 41.8,~ 52.0,~ 57.1,~ 95.3]~Mpc-1, corresponding to thermal-relic WDM masses mWDM∈ [3,~ 4,~ 5,~ 6,~ 6.5,~ 10]~keV, and plateau amplitudes δ∈ [0.2,~ 0.4,~ 0.6,~ 0.8]. We model the subhalo mass function in terms of the suppression wavenumber and δ. Integrating these models into a forward model of the MW satellite galaxy population yields new limits on f-NCDM scenarios, with suppression wavenumbers greater than 46 and 40~Mpc-1 for δ=0.2, 0.4, respectively, at 95\% confidence. The current data do not constrain δ>0.4. We map these limits to scenarios where a fraction fWDM of DM behaves as a thermal relic, which yields the following bounds on cosmologies with a mixture of WDM and CDM: mWDM>3.6,~ 4.1,~ 4.6,~ 4.9,~ 5.4~keV for fWDM=0.5,~ 0.6,~ 0.7,~ 0.8,~ 0.9, respectively, at 95\% confidence. The current data do not constrain WDM fractions fWDM<0.5. Our results affirm that low-mass halo abundances are sensitive to partial suppression in P(k), indicating the possibility of using galactic substructure to reconstruct P(k) on small scales.

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