REVISITING THE LYMAN CONTINUUM ESCAPE CRISIS: PREDICTIONS FOR z > 6 FROM LOCAL GALAXIES
ABSTRACT The intrinsic escape fraction of ionizing Lyman continuum photons ( ) is crucial to understanding whether galaxies are capable of reionizing the neutral hydrogen in the early universe at z > 6. Unfortunately, it is not possible to access at z > 4 with direct observations, and the hand...
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Veröffentlicht in: | The Astrophysical journal 2016-10, Vol.829 (2), p.99 |
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Sprache: | eng |
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Zusammenfassung: | ABSTRACT The intrinsic escape fraction of ionizing Lyman continuum photons ( ) is crucial to understanding whether galaxies are capable of reionizing the neutral hydrogen in the early universe at z > 6. Unfortunately, it is not possible to access at z > 4 with direct observations, and the handful of measurements from low-redshift galaxies consistently find < 10%, while at least ∼ 10% is necessary for galaxies to dominate reionization. Here, we present the first empirical prediction of at z > 6 by combining the (sparsely populated) relation between / and with the redshift evolution of / as predicted from local high-z analogs selected by their H equivalent width. We find at z = 6 and at z = 9 for galaxies with (errors given as 1 ). However, there is a negative correlation with stellar mass and we find up to 50% larger per 0.5 dex decrease in stellar mass. The population-averaged escape fraction increases according to , with fesc,0 = (2.3 0.05)% and = 1.17 0.02 at z > 2 for . With our empirical prediction of (thus fixing an important, previously unknown variable) and further reasonable assumptions on clumping factor and the production efficiency of Lyman continuum photons, we conclude that the average population of galaxies is just capable of reionizing the universe by z ∼ 6. |
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ISSN: | 0004-637X 1538-4357 |
DOI: | 10.3847/0004-637X/829/2/99 |