The effect of gas accretion on the radial gas metallicity profile of simulated galaxies
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Collacchioni, Florencia
Lagos, Claudia
Mitchell, Peter D
Schaye, J
Wisnioski, Emily
Cora, Sofia A
Correa, Camilla
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Oxford University Press
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We study the effect of the gas accretion rate (Maccr) on the radial gas metallicity profile (RMP) of galaxies using the EAGLE cosmological hydrodynamic simulations, focusing on central galaxies of stellar mass M109Matz≤1. We find clear relations between ̇Maccr and the slope of the RMP (measured within an effective radius), where higher ̇Maccrare associated wit more negative slopes. The slope of the RMPs depends more strongly on ̇Maccr than on stellarmass, star formation rate (SFR), or gas fraction, suggesting ̇Maccr to be a more fundamental driver of the RMP slope of galaxies. We find that eliminating the dependence on stellar mass is essential for pinning down the properties that shape the slope of the RMP. Although ̇Maccr is the main property modulating the slope of the RMP, we find that it causes other correlations that are more easily testable observationally: At fixed stellar mass, galaxies with more negative RMP slopes tend to have higher gas fractions and SFRs, while galaxies with lower gas fractions and SFRs tend to have flatter metallicity profiles within an effective radius.
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Monthly Notices of the Royal Astronomical Society
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