Title: Tunable Kondo physics in a van der Waals kagome antiferromagnet

Abstract: The Kondo lattice physics, describing the hybridization of localized spin matrix with dispersive conduction electrons, breeds numerous discoveries in the realm of strongly correlated quantum matter. Generally observed in lanthanide and actinide compounds, increasing attention has been directed towards alternative pathways for achieving flat band structures, such as Morie superlattices and Kagome metals. However, fine control of Kondo interaction outside of heterostructures remains elusive. Here we report the discovery of a van der Waals (vdW) kagome antiferromagnet CsCr6Sb6. Angle-resolved photoemission spectra and theoretical analysis show clear flat bands, consisting of half-filled 3dxz and 3dyz orbitals of Cr, situated 50 meV below the Fermi level. Importantly, we observe the emergence of anomalous Hall effect with remarkable tunability by simple reduction the sample thickness. The effective control of kondo interaction in CsCr6Sb6 render it an ideal platform for exploring unpresented phenomena using the vast toolkit of vdW structures.