Journal
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume 454, Issue 2, Pages 1393-1403Publisher
OXFORD UNIV PRESS
DOI: 10.1093/mnras/stv1907
Keywords
galaxies: evolution; galaxies: formation; galaxies: high-redshift; cosmology: observations
Categories
Funding
- National Science Foundation [AST-1410155]
- European Research Council (ERC) starting grant CALENDS
- Marie Curie Career Integration [294074]
- NASA Keck PI Data Award
- ERC via an Advanced Grant [321323 - NEOGAL]
- W. M. Keck Foundation
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We present Keck/MOSFIRE observations of UV metal emission lines in four bright (H = 23.9-25.4) gravitationally lensed z similar or equal to 6-8 galaxies behind the cluster Abell 1703. The spectrum of A1703-zd6, a highly magnified star-forming galaxy with a Ly alpha redshift of z = 7.045, reveals a confident detection of the nebular C IV lambda 1548 emission line (unresolved with full width at half-maximum< 125 km s(-1)). UV metal emission lines are not detected in the three other galaxies. At z similar or equal to 2-3, nebular C IV emission is observed in just 1 per cent of UV-selected galaxies. The presence of strong C IV emission in one of the small sample of galaxies targeted in this paper may indicate that hard ionizing spectra are more common at z similar or equal to 7. The total estimated rest-frame equivalent width of the C IV doublet and C IV/Ly alpha flux ratio are comparable to measurements of narrow-lined AGNs. Photoionization models show that the nebular C IV line can also be reproduced by a young stellar population, with very hot metal-poor stars dominating the photon flux responsible for triply ionizing carbon. Regardless of the origin of the C IV, we show that the ionizing spectrum of A1703-zd6 is different from that of typical galaxies at z similar or equal to 2, producing more H ionizing photons per unit 1500 angstrom luminosity (log(xi(ion)/erg(-1) Hz) = 25.68) and a larger flux density at 30-50 eV. If such extreme radiation fields are typical in UV-selected systems at z greater than or similar to 7, it would indicate that reionization-era galaxies are more efficient ionizing agents than previously thought. Alternatively, we suggest that the small sample of Ly alpha emitters at z greater than or similar to 7 may trace a rare population with intense radiation fields capable of ionizing their surrounding hydrogen distribution. Additional constraints on high-ionization emission lines in galaxies with and without Ly alpha detections will help clarify whether hard ionizing spectra are common in the reionization era.
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