The Luminosity Function and Clustering of Hα Emitting Galaxies at z≈4-6 from a Complete NIRCam Grism Redshift Survey
Abstract
We study the luminosity function (LF) and clustering properties of 888 Hα emitters (HAEs) at 3.75 < z < 6 in the GOODS-N field. The sample, built from JWST CONGRESS and FRESCO NIRCam grism surveys using a novel redshift assignment algorithm, spans 62 arcmin2 and reaches L Hα 1041.2 erg s-1. We identify two prominent filamentary protoclusters at z ≈ 4.41 and z ≈ 5.19, hosting 98 and 144 HAEs, respectively. The observed Hα LFs show similar shallow faint-end slopes for both protocluster and field galaxies at z=3.75-5, and for the protocluster at z=5-6 (α≈ 1.2 to -1.3). In contrast, the field LF at z=5-6 is much steeper (α=-1.87-0.23+0.30), suggesting that protocluster galaxies at z > 5 are more evolved, resembling those at z=3.75-5. The observed star formation rate density from Hα, integrated down to 0.45 M yr-1, is 0.050+0.002-0.003 and 0.046+0.006-0.004 M yr-1 Mpc-3 at z=3.75-5 and z=5-6, with protoclusters contributing 25% and 55%, respectively. This implies that a large fraction of star formation at z > 4 occurs in protoclusters. We conduct the first star-formation-rate-limited 3D clustering analysis at z > 4. We find the filamentary protocluster geometry flattens the power-law shape of the HAE auto-correlation functions, with slopes much shallower than typically assumed. The auto-correlation function of field HAEs have correlation lengths of r0 = 4.61+1.00-0.68 h-1 Mpc at z ≈ 4-5 and r0 = 6.23+1.68-1.13 h-1 Mpc at z=5-6. Comparing the observed correlation functions with the UniverseMachine simulation, we infer the dark matter (sub-)halo masses of HAEs to be (Mh/M)=11.0-11.2 at z≈ 4-6, with a scatter of 0.4 dex.
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