Abstract
In a recent study star-forming galaxies with HeII emission at moderate
redshifts have been found to occur in two modes, distinguished by the width of
their HeII emission lines. Broad HeII emission has been attributed to stellar
emission from a population of evolved Wolf-Rayet (WR) stars while narrow HeII
emission has been attributed to nebular emission excited by a population of
very hot PopIII stars formed in pockets of pristine gas at moderate redshifts.
In this work we propose an alternative scenario for the origin of the narrow
HeII emission, namely very massive stars (VMS) at low metallicity (Z) which
form strong but slow WR-type stellar winds due to their proximity to the
Eddington limit. We estimate the expected HeII line fluxes and equivalent
widths based on wind models for VMS and population synthesis models, and
compare the results with recent observations of star-forming galaxies at
moderate redshifts. The observed HeII line strengths and equivalent widths are
in line with what is expected for a population of VMS in one or more young
super-clusters located within these galaxies. In our scenario the two observed
modes of HeII emission originate from massive stellar populations in distinct
evolutionary stages at low Z. If this interpretation is correct there is no
need to postulate the existence of PopIII stars at moderate redshifts to
explain the observed narrow HeII emission. An interesting possibility is the
existence of self-enriched VMS with similar WR-type spectra at extremely low Z.
Stellar HeII emission from such very early generations of VMS may be detectable
in future studies of star-forming galaxies at high redshifts, as they are
planned for the James Webb Space Telescope. The fact that the HeII emission of
VMS is largely neglected in current population synthesis models will generally
affect the interpretation of the integrated spectra of young stellar
populations.
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