Extinction Correction Significantly Influences the Estimate of the Lyα Escape Fraction

The Ly α escape fraction is a key measure to constrain the neutral state of the intergalactic medium and then to understand how the universe was fully reionized. We combine deep narrowband imaging data from the custom-made filter NB393 and the filter centered at 2.14 μ m to examine the Ly α emitters...

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Bibliographic Details
Published in:The Astrophysical journal 2017-02, Vol.835 (2), p.116
Main Authors: An, Fang Xia, Zheng, Xian Zhong, Hao, Cai-Na, Huang, Jia-Sheng, Xia, Xiao-Yang
Format: Article
Language:English
Subjects:
ABSORPTION
Astrophysics
ASTROPHYSICS, COSMOLOGY AND ASTRONOMY
Attenuation
Color
COMPARATIVE EVALUATIONS
CORRELATIONS
COSMIC DUST
DENSITY
Dust
EMISSION
Emissions
Emitters
Extinction
GALACTIC EVOLUTION
GALAXIES
H alpha line
Intergalactic media
Interstellar extinction
LUMINOSITY
MASS
Narrowband
RED SHIFT
UNIVERSE
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Summary:The Ly α escape fraction is a key measure to constrain the neutral state of the intergalactic medium and then to understand how the universe was fully reionized. We combine deep narrowband imaging data from the custom-made filter NB393 and the filter centered at 2.14 μ m to examine the Ly α emitters and H α emitters at the same redshift z  = 2.24. The combination of these two populations allows us to determine the Ly α escape fraction at z  = 2.24. Over an area of 383 arcmin 2 in the Extended Chandra Deep Field South (ECDFS), 124 Ly α emitters are detected down to NB393 = 26.4 mag at the 5 σ level, and 56 H α emitters come from An et al. Of these, four have both Ly α and H α emissions (LAHAEs). We also collect the Ly α emitters and H α emitters at z  = 2.24 in the COSMOS field from the literature, and increase the number of LAHAEs to 15 in total. About one-third of them are AGNs. We measure the individual/volumetric Ly α escape fraction by comparing the observed Ly α luminosity/luminosity density to the extinction-corrected H α luminosity/luminosity density. We revisit the extinction correction for H α emitters using the Galactic extinction law with color excess for nebular emission. We also adopt the Calzetti extinction law together with an identical color excess for stellar and nebular regions to explore how the uncertainties in extinction correction affect the estimate of individual and global Ly α escape fractions. In both cases, an anti-correlation between the Ly α escape fraction and dust attenuation is found among the LAHAEs, suggesting that dust absorption is responsible for the suppression of the escaping Ly α photons. However, the estimated Ly α escape fraction of individual LAHAEs varies by up to ∼3 percentage points between the two methods of extinction correction. We find the global Ly α escape fraction at z  = 2.24 to be (3.7 ± 1.4)% in the ECDFS. The variation in the color excess of the extinction causes a discrepancy of ∼1 percentage point in the global Ly α escape fraction.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/835/2/116