The dark side of early galaxies: geko uncovers dark-matter fractions at z4-6
Abstract
JWST/NIRCam slitless spectroscopy enables dynamical mass measurements for typical star-forming galaxies only a billion years after the Big Bang. We model the Hα morpho-kinematics of 163 galaxies at redshift z≈4-6 from FRESCO and CONGRESS (with JADES imaging), using the geko code, and infer rotational velocities and dispersions within r e. Our sample spans M≈7-10 and M dyn≈9-11. Gas masses are estimated via scaling relations, yielding baryonic masses and dark-matter (DM) fractions f DM(r<r e) within the Hα half-light radius. We find high median fractions of f gas=0.77 and f DM=0.73, where f gas is measured with respect to the baryonic mass and f DM with respect to the DM+baryonic mass. About two-thirds of systems are DM-dominated within r e0.5-1 kpc. Both f gas and f DM decrease with stellar mass, consistent with simulations. The stellar Tully-Fisher relation shows a tentative offset to higher v circ at fixed M and substantial intrinsic scatter, suggesting that the relation is only beginning to emerge at z5. We measure a negative correlation between f DM and baryonic surface density bar, weaker but broadly consistent with trends at cosmic noon and at z0. Qualitatively comparing with modified NFW profiles coupled to an empirical stellar-to-halo mass relation suggests that the lowest f DM (0.4) require cored inner DM profiles, while the highest fractions favour cuspier profiles, potentially reflecting adiabatic contraction. Overall, the elevated f gas and f DM at z4 are compatible with progenitors of baryon-dominated systems at z2 and naturally anticipate overmassive black holes at fixed M.
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