1,091 research outputs found
Lyman Alpha Emitting Galaxies as a Probe of Reionization
The Epoch of Reionization (EoR) represents a milestone in the evolution of
our Universe. Star-forming galaxies that existed during the EoR likely emitted
a significant fraction (~5-40%) of their bolometric luminosity as Lyman Alpha
(Lya) line emission. However, neutral intergalactic gas that existed during the
EoR was opaque to Lya emission that escaped from galaxies during this epoch,
which makes it difficult to observe. The neutral intergalactic medium (IGM) may
thus reveal itself by suppressing the Lya flux from background galaxies.
Interestingly, a `sudden' reduction in the observed Lya flux has now been
observed in galaxies at z >6. This review contains a detailed summary of Lya
radiative processes: I describe (i) the main Lya emission processes, including
collisional-excitation & recombination (and derive the famous factor `0.68'),
and (ii) basic radiative transfer concepts, including e.g. partially coherent
scattering, frequency diffusion, resonant versus wing scattering, optically
thick versus 'extremely' optically thick (static/outflowing/collapsing) media,
and multiphase media. Following this review, I derive expressions for the
Gunn-Peterson optical depth of the IGM during (inhomogeneous) reionization and
post-reionization. I then describe why current observations appear to require a
very rapid evolution of volume-averaged neutral fraction of hydrogen in the
context of realistic inhomogeneous reionization models, and discuss
uncertainties in this interpretation. Finally, I describe how existing &
futures surveys and instruments can help reduce these uncertainties, and allow
us to fully exploit Lya emitting galaxies as a probe of the EoR.Comment: 27 pages, 19 figures. Invited review submitted to PASA following
revision based on referee report. Added some references, fixed Fig~
Observational Signatures of Lyman Alpha Emission from Early Galaxy Formation
The next generation of telescopes aim to directly observe the first
generation of galaxies that initiated the reionization process in our Universe.
The Lyman Alpha (Lya) emission line is robustly predicted to be the most
prominent intrinsic spectral feature of these galaxies, making it an ideal
target to search for and study high-redshift galaxies. I briefly discuss why
Lya emitting galaxies (LAEs) provide a good probe of the intergalactic medium
(IGM) during the Epoch of Reionization (EoR). I argue that if we wish to fully
exploit LAEs as a probe of the EoR, it is important to understand what drives
their observed redshift evolution after reionization is completed. One
important uncertainty in interpreting existing LAE observations relates to the
impact of the ionized IGM on Lya photons emitted by galaxies, which is strongly
connected to the effects of scattering through HI in galactic outflows.
Scattering through galactic outflows can also modify the Lya spectral line
shape such that > 5% of the emitted Lya radiation is transmitted directly to
the observer, even through a fully neutral IGM. Finally, I discuss what is
required --observationally and theoretically-- to resolve the uncertainties
that affect existing interpretations of data on LAEs.Comment: 6 pages, 4 figures; conference proceedings from "Cosmic Radiation
Fields: Sources in the early Universe", 2010, Hamburg, German
Very Massive Stars in High-Redshift Galaxies
A significant fraction of Lyman Alpha (Lya) emitting galaxies (LAEs) at z>
5.7 have rest-frame equivalent widths (EW) greater than ~100 Angstrom. However
only a small fraction of the Lya flux produced by a galaxy is transmitted
through the IGM, which implies intrinsic Lya EWs that are in excess of the
maximum allowed for a population-II stellar population having a Salpeter mass
function. In this paper we study characteristics of the sources powering Lya
emission in high redshift galaxies. We propose a simple model for Lya emitters
in which galaxies undergo a burst of very massive star formation that results
in a large intrinsic EW, followed by a phase of population-II star formation
with a lower EW. We confront this model with a range of high redshift
observations and find that the model is able to simultaneously describe the
following eight properties of the high redshift galaxy population with
plausible values for parameters like the efficiency and duration of star
formation: i-iv) the UV and Lya luminosity functions of LAEs at z=5.7 and 6.5,
v-vi) the mean and variance of the EW distribution of Lya selected galaxies at
z=5.7, vii) the EW distribution of i-drop galaxies at z~6, and viii) the
observed correlation of stellar age with EW. Our modeling suggests that the
observed anomalously large intrinsic equivalent widths require a burst of very
massive star formation lasting no more than a few to ten percent of the
galaxies star forming lifetime. This very massive star formation may indicate
the presence of population-III star formation in a few per cent of i-drop
galaxies, and in about half of the Lya selected galaxies.Comment: 11 pages, 7 figures, MNRAS in press, comments by referee included,
references added+update
A new model framework for circumgalactic Ly radiative transfer constrained by galaxy-Ly forest clustering
We present a new perturbative approach to "constrained Ly radiative
transfer'" (RT) through the circum- and inter-galactic medium (CGM and IGM). We
constrain the HI content and kinematics of the CGM and IGM in a physically
motivated model, using the galaxy-Ly forest clustering data from
spectroscopic galaxy surveys in QSO fields at . This enables us to
quantify the impact of the CGM/IGM on Ly emission in an observationally
constrained, realistic cosmological environment. Our model predicts that the
CGM and IGM at these redshifts transmit of Ly photons
after having escaped from galaxies. This implies that while the inter-stellar
medium primarily regulates Ly escape, the CGM has a non-negligible
impact on the observed Ly line properties and the inferred Ly
escape fraction, even at . Ly scattering in the CGM and IGM
further introduces an environmental dependence in the (apparent) Ly
escape fraction, and the observed population of Ly emitting galaxies:
the CGM/IGM more strongly suppresses direct Ly emission from galaxies
in overdense regions in the Universe, and redistributes this emission into
brighter Ly haloes. The resulting mean surface brightness profile of
the Ly haloes is generally found to be a power-law .
Although our model still contains arbitrariness, our results demonstrate how
(integral field) spectroscopic surveys of galaxies in QSO fields constrain
circumgalactic Ly RT, and we discuss the potential of these models for
studying CGM physics and cosmology.Comment: 20 pages, 14 figures, the version accepted in MNRA
A systematic study of Lyman-Alpha transfer through outflowing shells: Model parameter estimation
Outflows promote the escape of Lyman- (Ly) photons from dusty
interstellar media. The process of radiative transfer through interstellar
outflows is often modelled by a spherically symmetric, geometrically thin shell
of gas that scatters photons emitted by a central Ly source. Despite
its simplified geometry, this `shell model' has been surprisingly successful at
reproducing observed Ly line shapes. In this paper we perform automated
line fitting on a set of noisy simulated shell model spectra, in order to
determine whether degeneracies exist between the different shell model
parameters. While there are some significant degeneracies, we find that most
parameters are accurately recovered, especially the HI column density () and outflow velocity (). This work represents an important
first step in determining how the shell model parameters relate to the actual
physical properties of Ly sources. To aid further exploration of the
parameter space, we have made our simulated model spectra available through an
interactive online tool.Comment: 10 pages, 6 figures. Matches version published in ApJ. Our grid of
Lyman alpha spectra can be accessed at http://bit.ly/man-alpha through an
interactive online too
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