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The stellar accretion origin of stellar population gradients in massive galaxies at large radii

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posted on 2024-07-26, 13:57 authored by Michaela Hirschmann, Thorsten Naab, Jeremiah P. Ostriker, Duncan ForbesDuncan Forbes, P.-A. Duc, Romeel Davé, Ludwig Oser, Emin Karabal
We investigate the evolution of stellar population gradients from z = 2 to z = 0 in massive galaxies at large radii (r > 2Reff) using ten cosmological zoom simulations of halos with 6 × 1012M⊙ < Mhalo < 2 × 1013M⊙. The simulations follow metal cooling and enrichment from SNII, SNIa and AGB winds. We explore the differential impact of an empirical model for galactic winds that reproduces the mass-metallicity relation and its evolution with redshift. At larger radii the galaxies, for both models, become more dominated by stars accreted from satellite galaxies in major and minor mergers. In the wind model, fewer stars are accreted, but they are significantly more metal poor resulting in steep global metallicity (h∇Zstarsi = −0.35 dex/dex) and color (e.g. h∇g − ri = −0.13 dex/dex) gradients in agreement with observations. In contrast, colour and metallicity gradients of the models without winds are inconsistent with observations. Age gradients are in general mildly positive at z = 0 (h∇Agestarsi = 0.04 dex/dex) with significant differences between the models at higher redshift. We demonstrate that for the wind model, stellar accretion is steepening existing in-situ metallicity gradients by about 0.2 dex by the present day and helps to match observed gradients of massive early-type galaxies at large radii. Colour and metallicity gradients are significantly steeper for systems which have accreted stars in minor mergers, while galaxies with major mergers have relatively flat gradients, confirming previous results. The effect of stellar migration of in-situ formed stars to large radii is discussed. This study highlights the importance of stellar accretion for stellar population properties of massive galaxies at large radii, which can provide important constraints for formation models.

Funding

Revealing how elliptical galaxies formed

Australian Research Council

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ISSN

0035-8711

Journal title

Monthly Notices of the Royal Astronomical Society

Volume

449

Issue

1

Pagination

22 pp

Publisher

Oxford University Press

Copyright statement

This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society ©: 2015 The Authors. Published by Oxford University Press on behalf of the Royal Astronomical Society. All rights reserved.

Language

eng

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