The nature of the Lyman Alpha Emitter CR7: a persisting puzzle

Abstract

The peculiar emission properties of the z 6.6 Lyα emitter CR7 have been initially interpreted with the presence of either a direct collapse black hole (DCBH) or a substantial mass of Pop III stars. Instead, updated photometric observations by Bowler et al. (2016) seem to suggest that CR7 is a more standard system. Here we confirm that the original DCBH hypothesis is consistent also with the new data. Using radiation-hydrodynamic simulations, we reproduce the new IR photometry with two models involving a Compton-thick DCBH of mass ≈ 7 × 106 \, M accreting (a) metal-free (Z=0) gas with column density NH = 8 × 1025 \, cm-2, or (b) low-metallicity gas (Z = 5 × 10-3 \, Z) with NH = 3 × 1024 \, cm-2. The best fit model reproduces the photometric data to within 1 σ. Such metals can be produced by weak star-forming activity occurring after the formation of the DCBH. The main contribution to the Spitzer/IRAC 3.6 \, μ m photometric band in both models is due to HeI/HeII λ 4714, 4687 emission lines, while the contribution of [OIII] λ 4959, 5007 emission lines, if present, is sub-dominant. Spectroscopic observations with JWST will be required to ultimately clarify the nature of CR7.