Halo Mass-Concentration Relation at High-Mass End

Abstract

The concentration-mass (c-M) relation encodes the key information of the assembly history of the dark matter halos, however its behavior at the high mass end has not been measured precisely in observations yet. In this paper, we report the measurement of halo c-M relation with galaxy-galaxy lensing method, using shear catalog of the Dark Energy Camera Legacy Survey (DECaLS) Data Release 8, which covers a sky area of 9500 deg2. The foreground lenses are selected from redMaPPer, LOWZ, and CMASS catalogs, with halo mass range from 1013 to 1015 Msun and redshift range from z=0.08 to z=0.65. We find that the concentration decreases with the halo mass from 1013 to 1014 Msun, but shows a trend of upturn after the pivot point of ~1014 Msun. We fit the measured c-M relation with the concentration model c(M)=C0 (M/(1012 Msun/h)-γ [1+(M/M0)0.4], and get the values (C0, γ, log(M0) = (5.119-0.1850.183, 0.205-0.0100.010, 14.083-0.1330.130), and (4.875-0.2080.209, 0.221-0.0100.010, 13.750-0.1410.142) for halos with 0.08<=z<0.35 and 0.35<=z<0.65, respectively. We also show that the model including an upturn is favored over a simple power-law model. Our measurement provides important information for the recent argument of massive cluster formation process.