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1. Freeze-in dark matter perturbations are adiabatic

   https://doi.org/10.1088/1475-7516/2023/01/020  

   Racco, D.; Riotto, A. (January 2023, Journal of Cosmology and Astroparticle Physics)

   Abstract We show that the large-scale perturbations in the dark matter generated by the freeze-in mechanism are only of adiabatic nature. The freeze-in mechanism is not at odds with the current stringent constraints on isocurvature perturbations. 

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2. Minimal dark matter freeze-in with low reheating temperatures and implications for direct detection

   https://doi.org/10.1103/PhysRevD.111.063537  

   Boddy, Kimberly K; Freese, Katherine; Montefalcone, Gabriele; Shams_Es_Haghi, Barmak (March 2025, Physical Review D)

   We investigate the influence of the reheating temperature of the visible sector on the freeze-in dark matter (DM) benchmark model for direct detection experiments, where DM production is mediated by an ultralight dark photon. Here, we consider a new regime for this benchmark: we take the initial temperature of the thermal Standard Model (SM) bath to be below the DM mass. The production rate from the SM bath is drastically reduced due to Boltzmann suppression, necessitating a significant increase in the portal coupling between DM and the SM to match the observed relic DM abundance. This enhancement in coupling strength increases the predicted DM-electron scattering cross section, making freeze-in DM more accessible to current direct detection experiments. Published by the American Physical Society2025 

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3. Free-streaming and coupled dark radiation isocurvature perturbations: constraints and application to the Hubble tension

   https://doi.org/10.1088/1475-7516/2022/05/014  

   Ghosh, Subhajit; Kumar, Soubhik; Tsai, Yuhsin (May 2022, Journal of Cosmology and Astroparticle Physics)

   Abstract Dark radiation (DR) appears as a new physics candidate in various scenarios beyond the Standard Model. While it is often assumed that perturbations in DR are adiabatic, they can easily have an isocurvature component if more than one field was present during inflation, and whose decay products did not all thermalize with each other.By implementing the appropriate isocurvature initial conditions (IC), we derive the constraints on both uncorrelated and correlated DR density isocurvature perturbations from the full Planck 2018 data alone, and also in combination with other cosmological data sets.Our study on free-streaming DR (FDR) updates and generalizes the existing bound on neutrino density isocurvature perturbations by including a varying number of relativistic degrees of freedom, and for coupled DR (CDR) isocurvature, we derive the first bound. We also show that for CDRqualitatively new physical effects arise compared to FDR. One such effect is that for isocurvature IC, FDR gives rise to larger CMB anisotropies compared to CDR — contrary to the adiabatic case.More generally, we find that a blue-tilt of DR isocurvature spectrum is preferred. This gives rise to a larger value of the Hubble constant H 0 compared to the standard ΛCDM+Δ N eff cosmology with adiabatic spectra and relaxes the H 0  tension. 

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4. Dark matter freeze-out during SU(2)L confinement

   https://doi.org/10.1007/JHEP02(2022)047  

   Howard, Jessica N.; Ipek, Seyda; Tait, Tim M.; Turner, Jessica (February 2022, Journal of High Energy Physics)

   A bstract We explore the possibility that dark matter is a pair of vector-like fermionic SU(2) L doublets and propose a novel mechanism of dark matter production that proceeds through the confinement of the weak sector of the Standard Model. This confinement phase causes the Standard Model doublets and dark matter to confine into pions. The dark pions freeze-out before the weak sector deconfines and generate a relic abundance of dark matter. We solve the Boltzmann equations for this scenario to determine the scale of confinement and constituent dark matter mass required to produce the observed relic density. We determine which regions of this parameter space evade direct detection, collider bounds, and successfully produce the observed relic density of dark matter. For a TeV scale pair of vector-like fermionic SU(2) L doublets, we find the weak confinement scale to be ∼ 700 TeV. 

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5. Warm Hawking relics from primordialblack hole domination

   https://doi.org/10.1088/1475-7516/2025/02/026  

   Shallue, Christopher J; Muñoz, Julian B; Krnjaic, Gordan Z (February 2025, Journal of Cosmology and Astroparticle Physics)

   Abstract We study the cosmological impact of warm, dark-sector relic particles produced as Hawking radiation in a primordial-black-hole-dominated universe before big bang nucleosynthesis. If these dark-sector particles are stable, they would survive to the present day asHawking relicsand modify the growth of cosmological structure. We show that such relics are produced with much larger momenta, but in smaller quantities than the familiar thermal relics considered in standard cosmology. Consequently, Hawking relics with keV–MeV masses affect the growth of large-scale structure in a similar way to eV-scale thermal relics like massive neutrinos. We model their production and evolution, and show that their momentum distributions are broader than comparable relics with thermal distributions. Warm Hawking relics affect the growth of cosmological perturbations and we constrain their abundance to be less than 2% of the dark matter over a broad range of their viable parameter space. Finally, we examine how future measurements of the matter power spectrum can distinguish Hawking relics from thermal particles. 

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