ASPIRE: The Environments and Dark Matter Halos of Luminous Quasars in the Epoch of Reionization

Abstract

We present a systematic study of the environments of 25 luminous quasars at z > 6.5 from the ASPIRE program. Using JWST/NIRCam WFSS data, we identified 487 galaxies at 5.3 z 7.0 exhibiting [OIII] emission. Among these, 122 [OIII] emitters lie within | v los| < 1000~ km~s-1 of the quasars, corresponding to a 9.4-fold enhancement relative to the average galaxy density at other redshifts. Furthermore, we identified 16 [CII]-emitting galaxies at the quasar redshifts from ALMA mosaic observations. A cross-correlation function (CCF) analysis between quasars and [OIII]+[CII] emitters yields a cross-correlation length of r0 QG = 8.68+0.51-0.55~h-1~cMpc and a auto-correlation of r0QQ=15.76+2.48-2.70~h-1~ cMpc, indicating that z 7 quasars reside in dark matter halos with M halo = 1012.27+0.21-0.26~M. Notably, the number of [OIII]-emitting galaxies at quasar redshifts varies significantly from field to field, ranging from zero to twenty, highlighting a diverse quasar environment. Remarkably, seven quasars trace significant galaxy overdensities (i.e., protoclusters), with δ gal > 5 within a volume of V 500~ cMpc3. We also find that | v los| increases rapidly toward smaller galaxy-quasar separations in protocluster fields, consistent with galaxy kinematics around extremely massive halos in cosmological simulations. By combining JWST and ALMA data, we reveal the complex and diverse environments of these early quasars, providing robust evidence that the earliest luminous quasars are effective tracers of galaxy overdensities, albeit with substantial field-to-field variation.