CLARA's view on the escape fraction of Lyman α photons in high-redshift galaxies
Entidad
UAM. Departamento de Física TeóricaEditor
Oxford University Press; Royal Astronomical SocietyFecha de edición
2011-08-01Cita
10.1111/j.1365-2966.2011.18983.x
Monthly Notices of the Royal Astronomical Society 415.4 (2011): 3666-3680
ISSN
0035-8711 (print); 1365-2966 (online)DOI
10.1111/j.1365-2966.2011.18983.xFinanciado por
JEF-R and FP acknowledge the support by the European Science Foundation AstroSim network though a grant to JEF-R . GY acknowledges support of MICINN (Spain) through research grants FPA2009-08958 and AYA2009-13875-C03-02. SRK would like to thank Consolider-Ingenio SyeC (Spain) (CSD2007-0050) for financial support. AJC acknowledges support from MICINN through FPU grant 2005-1826. We equally acknowledge funding from the Consolider project MULTIDARK (CSD2009-00064) and the Comunidad de Madrid project ASTROMADRID (S2009/ESP-146)Proyecto
Comunidad de Madrid. S2009/ESP-1496/ASTROMADRIDVersión del editor
http://dx.doi.org/10.1186/1556-276X-6-49/10.1111/j.1365-2966.2011.18983.xMaterias
Galaxies: evolution; Galaxies: formation; Galaxies: high-redshift; Astronomía; FísicaNota
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society ©: 2011 RAS © 2011 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society. All rights reservedDerechos
© 2011 RAS; © 2011 The AuthorsResumen
Using CLARA (code for Lyman alpha radiation analysis) we constrain the escape fraction of Lyman α radiation in galaxies in the redshift range 5 ≲z≲ 7, based on the MareNostrum High-z Universe, a smoothed particle hydrodynamics cosmological simulation with more than two billion particles. We approximate Lyman α emitters (LAEs) as dusty gaseous slabs with Lyman α radiation sources homogeneously mixed in the gas. Escape fractions for such a configuration and for different gas and dust contents are calculated using our newly developed radiative transfer code clara. The results are applied to the MareNostrum High-z Universe numerical galaxies. The model shows a weak redshift evolution and good agreement with estimations of the escape fraction as a function of reddening from observations at z~ 2.2 and z~ 3. We extend the slab model by including additional dust in a clumpy component in order to reproduce the ultraviolet (UV) continuum luminosity function (LF) and UV colours at redshifts z > rsim 5. The LAE LF, based on the extended clumpy model, reproduces broadly the bright end of the LF derived from observations at z~ 5 and z~ 6. At z~ 7, our model overpredicts the LF by roughly a factor of 4, presumably because the effects of the neutral intergalactic medium are not taken into account. The remaining tension between the observed and simulated faint end of the LF, both in the UV continuum and Lyman α at redshifts z~ 5 and z~ 6, points towards an overabundance of simulated LAEs hosted in haloes of masses 1.0 × 1010≤Mh≤ 4.0 × 1010h-1M⊙. Given the difficulties in explaining the observed overabundance by dust absorption, a probable origin of the mismatch is the high star formation rate in the simulated haloes around the quoted mass range. A more efficient supernova feedback should be able to regulate the star formation process in the shallow potential wells of these haloes
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Google Scholar:Forero-Romero, Jaime E.
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Yepes Alonso, Gustavo
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Gottlöber, Stefan
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Knollmann, Steffen R.
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Cuesta, Antonio J.
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Prada, Francisco
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