Direct Measurement of Galaxy Assembly Bias using DESI DR1 Data

Abstract

We report the first direct measurement of galaxy assembly bias, a critical systematic in cosmology, from the Dark Energy Spectroscopic Instrument (DESI) Bright Galaxy Survey. We introduce a novel, cosmology-independent method to measure the halo occupation distribution (HOD) by combining a state-of-the-art group catalog with weak gravitational lensing. For groups binned by total luminosity, we determine the galaxy occupation number N gal from group-galaxy cross-correlations, while weak lensing constrains the average halo mass Mh. Applying this to a volume-limited sample at z∈[0.05,0.2], we measure the dependence of HOD, N gal(Mh), on large-scale overdensity δg. Focusing on the satellite galaxies, we find an assembly bias parameter of Q sat=0.050.14, a result consistent with zero and in tension with many empirical galaxy formation models. Our method provides a robust approach for characterizing galaxy assembly bias to achieve precision cosmology with DESI and future Stage-V surveys.

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