Probing the circumgalactic medium of active galactic nuclei with background quasars

TL;DR

This study investigates the cool gas around active galactic nuclei (AGNs) using background quasars, revealing lower MgII gas covering fractions compared to quasars and field galaxies, and evidence of AGN-driven outflows impacting the circumgalactic medium.

Contribution

It provides new observational evidence of how AGN-driven outflows reduce cool gas in halos, contrasting with quasar environments and supporting the AGN unified model.

Findings

AGNs have lower MgII gas covering fractions than quasars and field galaxies.

Intrinsic outflows are detected in AGNs, with velocities up to four times higher than star-formation driven winds.

AGN outflows likely destroy cool gas in halos, affecting the circumgalactic medium.

Abstract

We performed a detailed study of the extended cool gas, traced by MgII absorption [$W_r(2796)\geq0.3$~{\AA}], surrounding 14 narrow-line active galactic nuclei (AGNs) at 0.12<z<0.22 using background quasar sight-lines. The background quasars probe the AGNs at projected distances of $60\leq D\leq265$~kpc. We find that, between $100\leq D\leq200$~kpc, AGNs appear to have lower MgII gas covering fractions (0.09$^{+0.18}_{-0.08}$) than quasars (0.47$^{+0.16}_{-0.15}$) and possibly lower than in active field galaxies (0.25$^{+0.11}_{-0.09}$). We do not find a statistically significant azimuthal angle dependence for the MgII covering fraction around AGNs, though the data hint at one. We also study the `down-the-barrel' outflow properties of the AGNs themselves and detect intrinsic NaID absorption in 8/8 systems and intrinsic MgII absorption in 2/2 systems, demonstrating that the AGNs have significant reservoirs of cool gas. We find that 6/8 NaID and 2/2 MgII intrinsic systems contain blueshifted absorption with $\Delta v>50$ km/s, indicating outflowing gas. The 2/2 intrinsic MgII systems have outflow velocities a factor of $\sim4$ higher than the NaID outflow velocities. Our results are consistent with AGN-driven outflows destroying the cool gas within their halos, which dramatically decreases their cool gas covering fraction, while star-burst driven winds are expelling cool gas into their circumgalactic media (CGM). This picture appears contrary to quasar--quasar pair studies which show that the quasar CGM contains significant amounts of cool gas whereas intrinsic gas found `down-the-barrel' of quasars reveals no cool gas. We discuss how these results are complementary and provide support for the AGN unified model.