A Deep Narrowband Imaging Search for CIV and He II Emission from Lyα Blobs

Abstract

We conduct a deep narrow-band imaging survey of 13 Lyα blobs (LABs) located in the SSA22 proto-cluster at z~3.1 in the CIV and HeII emission lines in an effort to constrain the physical process powering the Lyα emission in LABs. Our observations probe down to unprecedented surface brightness limits of 2.1 - 3.4 × 10-18 erg s-1 cm-2 arcsec-2 per 1 arcsec2 aperture (5σ) for the HeIIλ1640 and CIVλ1549 lines, respectively. We do not detect extended HeII and CIV emission in any of the LABs, placing strong upper limits on the HeII/Lyα and CIV/Lyα line ratios, of 0.11 and 0.16, for the brightest two LABs in the field. We conduct detailed photoionization modeling of the expected line ratios and find that, although our data constitute the deepest ever observations of these lines, they are still not deep enough to rule out a scenario where the Lyα emission is powered by the ionizing luminosity of an obscured AGN. Our models can accommodate HeII/Lyα and CIV/Lyα ratios as low as 0.05 and 0.07 respectively, implying that one needs to reach surface brightness as low as 1 - 1.5 × 10-18 erg s-1 cm-2 arcsec-2 (at 5σ) in order to rule out a photoionization scenario. These depths will be achievable with the new generation of image-slicing integral field units such as VLT/MUSE or Keck/KCWI. We also model the expected HeII/Lyα and CIV/Lyα in a different scenario, where Lyα emission is powered by shocks generated in a large-scale superwind, but find that our observational constraints can only be met for shock velocities v s 250 km s-1, which appear to be in conflict with recent observations of quiescent kinematics in LABs.