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Full Record Details
Persistent URL
http://purl.org/net/epubs/work/10788614
Record Status
Checked
Record Id
10788614
Title
HiZELS: A high-redshift survey of H? emitters - II. the nature of star-forming galaxies at z = 0.84
Contributors
D Sobral
,
P Best
,
M Cirasuolo
,
R Ivison
,
J Geach
,
I Smail
,
K Coppin
,
J Kurk
,
M Casali
,
G Dalton (STFC Rutherford Appleton Lab., and Oxford U.)
Abstract
New results from a large survey of H? emission-line galaxies at z = 0.84 using the Wide Field Camera on the United Kingdom Infrared Telescope and a custom narrow-band filter in the J band are presented as part of the High-z Emission Line Survey (HiZELS). The deep narrow-band images reach an effective flux limit of F ? 10 erg s cm in a comoving volume of 1.8 × 10 Mpc , resulting in the largest and deepest survey of its kind ever done at z ? 1. There are 1517 potential line emitters detected across ?1.4 deg , of which 743 are selected as H? emitters, based on their photometric and spectroscopic redshifts. These are then used to calculate the H? luminosity function, which is well fitted by a Schechter function with L* = 10 erg s , ?* = 10 Mpc and ? = -1.65 ± 0.15, and are used to estimate the volume average star formation rate (SFR) at z = 0.845, ? : 0.15 ± 0.01 M yr Mpc (corrected for 15 per cent active galactic nucleus contamination and integrated down to 2.5 M yr ). These results robustly confirm a strong evolution of ? from the present day out to z ? 1 and then flattening to z ? 2 using a single star formation indicator: H? luminosity. Out to z ? 1, both the characteristic luminosity and space density of the H? emitters increase significantly; at higher redshifts, L* continues to increase, but ?* decreases. The z = 0.84 H? emitters are mostly disc galaxies (82 ± 3 per cent), while 28 ± 4 per cent of the sample shows signs of merger activity; mergers account for ?20 per cent of the total integrated ? at this redshift. Irregulars and mergers dominate the H? luminosity function above L*, while discs are dominant at fainter luminosities. These results demonstrate that it is the evolution of 'normal' disc galaxies that drives the strong increase in the SFR density from the current epoch to z ? 1, although the continued strong evolution of L* beyond z = 1 suggests an increasing importance of merger activity at higher redshifts. © 2009 RAS.
Organisation
SSTD
,
STFC
,
SSTD-IS
Keywords
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Language
English (EN)
Type
Details
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Year
Journal Article
Mon Notic Roy Astron Soc
398 (2009): 75-90.
doi:10.1111/j.1365-2966.2009.15129.x
2009
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