Clustering of z~6.6 Quasars and [O III] Emitters Constrains Host Halo Masses and Duty Cycles in 25 ASPIRE Fields

Abstract

We use data from the JWST ASPIRE Wide Field Slitless Spectroscopy (WFSS) program to measure the auto-correlation function of [O, iii] emitters at 5.3<z<7.0 and the quasar--[O, iii] emitter cross-correlation around 25 ASPIRE quasars (6.51<z<6.82; z=6.6). We use synthetic source injection to calibrate the selection function, which we combine with the large-volume FLAMINGO-10k simulation (2.8,cGpc box) to construct realistic mock observations. Our simulation-based approach captures nonlinear structure growth and scale-dependent bias on small scales and derives covariance matrices that include cosmic variance. The clustering yields correlation lengths of r0 GG=4.7+0.4-0.5,h-1,cMpc for the [O, iii] auto-correlation with fixed slope γ GG=1.8, and r0 QG=8.7+0.8-0.9,h-1,cMpc for the quasar--[O, iii] cross-correlation with γ QG=2.0. We infer (Mh, min[ O,III]/M)=10.5+0.1-0.1 for [O, iii] emitters and (Mh, min QSO/M)=12.1+0.3-0.4 for quasars. These imply duty cycles of 2.5+1.0-0.8,per,cent for [O, iii] emitters and 0.3+4.0-0.3,per,cent for quasars, corresponding to UV-bright lifetimes of t Q=2.6+30-2.5,Myr (less than 10,per,cent of a Salpeter e-folding time). The results indicate that the observed UV-luminous phase contributes little to total SMBH growth, placing tight constraints on early black-hole formation.