NuSTAR hard X-ray data and Gemini 3D spectra reveal powerful AGN and outflow histories in two low-redshift Lyman-α blobs

Abstract

We have shown that Lyman-α blobs (LABs) may still exist even at z0.3, about 7 billion years later than most other LABs known (Schirmer et al. 2016). Their luminous Lyα and [OIII] emitters at z0.3 offer new insights into the ionization mechanism. This paper focuses on the two X-ray brightest LABs at z0.3, SDSS J0113+0106 (J0113) and SDSS J1155-0147 (J1155), comparable in size and luminosity to `B1', one of the best-studied LABs at z 2. Our NuSTAR hard X-ray (3--30 keV) observations reveal powerful active galactic nuclei (AGN) with L2-10\; keV=(0.5--3)×1044 erg cm-2 s-1. J0113 also faded by a factor of 5 between 2014 and 2016, emphasizing that variable AGN may cause apparent ionization deficits in LABs. Joint spectral analyses including Chandra data constrain column densities of N H=5.1+3.1-3.3×1023 cm-2 (J0113) and N H=6.0+1.4-1.1×1022 cm-2 (J1155). J0113 is likely buried in a torus with a narrow ionization cone, but ionizing radiation is also leaking in other directions as revealed by our Gemini/GMOS 3D spectroscopy. The latter shows a bipolar outflow over 10 kpc, with a peculiar velocity profile that is best explained by AGN flickering. X-ray analysis of J1155 reveals a weakly absorbed AGN that may ionize over a wide solid angle, consistent with our 3D spectra. Extinction corrected [OIII] log-luminosities are high, 43.6. The velocity dispersions are low, 100--150 km s-1, even at the AGN positions. We argue that this is a combination of high extinction hiding the turbulent gas, and previous outflows that have cleared the escape paths for their successors.