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26 April 2024 |
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Article overview
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A Deep Hubble and Keck Search for Definitive Identification of Lyman Continuum Emitters at z~3.1 | Brian Siana
; Alice E. Shapley
; Kristin R. Kulas
; Daniel B. Nestor
; Charles C. Steidel
; Harry I. Teplitz
; Anahita Alavi
; Thomas M. Brown
; Christopher J. Conselice
; Henry C. Ferguson
; Mark Dickinson
; Mauro Giavalisco
; James W. Colbert
; Carrie R. Bridge
; Jonathan P. Gardner GSFC)
; Duilia F. de Mello (Catholic University)
; | Date: |
24 Feb 2015 | Abstract: | Narrow-band imaging of the rest-frame Lyman continuum (LyC) of galaxies at
z~3.1 has produced a large number of candidate LyC-emitting galaxies. These
samples are contaminated by galaxies at lower redshift. To better understand
LyC escape, we need an uncontaminated sample of galaxies that emit strongly in
the LyC. Here we present deep Hubble imaging of five bright galaxies at z~3.1
that had previously been identified as candidate LyC-emitters with ground-based
images. The WFC3 F336W images probe the LyC of galaxies at z>3.06 and provide
an order-of-magnitude increase in spatial resolution over ground-based imaging.
The non-ionizing UV images often show multiple galaxies (or components) within
~1’’ of the candidate LyC emission seen from the ground. In each case, only one
of the components is emitting light in the F336W filter, which would indicate
LyC escape if that component is at z>3.06. We use Keck/NIRSPEC near-IR
spectroscopy to measure redshifts of these components to distinguish
LyC-emitters from foreground contamination. We find that two candidates are low
redshift contaminants, one candidate had a previously misidentified redshift,
and the other two cannot be confirmed as LyC-emitters. The level of
contamination is consistent with previous estimates. For the galaxies with
z>3.06, we derive strong 1 sigma limits on the relative escape fraction between
0.07 and 0.09. We still do not have a sample of definitive LyC-emitters, and a
much larger study of low luminosity galaxies is required. The combination of
high resolution imaging and deep spectroscopy is critical for distinguishing
LyC-emitters from foreground contaminants. | Source: | arXiv, 1502.6978 | Services: | Forum | Review | PDF | Favorites |
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