TY - JOUR
T1 - The large-scale distribution of ionized metals in IllustrisTNG
AU - Artale, M. Celeste
AU - Haider, Markus
AU - Montero-Dorta, Antonio D.
AU - Vogelsberger, Mark
AU - Martizzi, Davide
AU - Torrey, Paul
AU - Bird, Simeon
AU - Hernquist, Lars
AU - Marinacci, Federico
N1 - Publisher Copyright:
© 2021 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.
PY - 2022/2/1
Y1 - 2022/2/1
N2 - We study the intrinsic large-scale distribution and evolution of seven ionized metals in the IllustrisTNG magnetohydrodynamical cosmological simulation. We focus on the fractions of C ii, C iv, Mg ii, N v, Ne viii, O vi, and Si iv in different cosmic web structures (filaments, haloes, and voids) and gas phases (warm-hot intergalactic medium, hot, diffuse, and condensed gas) from z = 6 to z = 0. Our analysis provides a new perspective to the study of the distribution and evolution of baryons across cosmic time while offering new hints in the context of the well-known missing baryons problem. The cosmic web components are here identified using the local comoving dark matter density, which provides a simple but effective way of mapping baryons on large scales. Our results show that C ii and Mg ii are mostly located in condensed gas inside haloes in high-density and low-temperature star-forming regions (rho {rm gas}/bar{rho }{rm bar}gtrsim 10 3, and T pdbl 105 K). C iv and Si iv present similar evolution of their mass fractions in haloes and filaments across cosmic time. In particular, their mass budgets in haloes in condensed phase (rho {rm gas}/bar{rho }{rm bar}gtrsim 10 3, and T pdbl 105 K) are driven by gas cooling and star formation with a peak at z ∼2. Finally, our results confirm that O vi, Ne viii, and N v are good tracers of warm/hot and low-density gas at low redshift (rho {rm gas}/bar{rho }{rm bar}lesssim 10 3, and T pdbl 105 K), regions that are likely to contain most of the missing baryons in the local Universe.
AB - We study the intrinsic large-scale distribution and evolution of seven ionized metals in the IllustrisTNG magnetohydrodynamical cosmological simulation. We focus on the fractions of C ii, C iv, Mg ii, N v, Ne viii, O vi, and Si iv in different cosmic web structures (filaments, haloes, and voids) and gas phases (warm-hot intergalactic medium, hot, diffuse, and condensed gas) from z = 6 to z = 0. Our analysis provides a new perspective to the study of the distribution and evolution of baryons across cosmic time while offering new hints in the context of the well-known missing baryons problem. The cosmic web components are here identified using the local comoving dark matter density, which provides a simple but effective way of mapping baryons on large scales. Our results show that C ii and Mg ii are mostly located in condensed gas inside haloes in high-density and low-temperature star-forming regions (rho {rm gas}/bar{rho }{rm bar}gtrsim 10 3, and T pdbl 105 K). C iv and Si iv present similar evolution of their mass fractions in haloes and filaments across cosmic time. In particular, their mass budgets in haloes in condensed phase (rho {rm gas}/bar{rho }{rm bar}gtrsim 10 3, and T pdbl 105 K) are driven by gas cooling and star formation with a peak at z ∼2. Finally, our results confirm that O vi, Ne viii, and N v are good tracers of warm/hot and low-density gas at low redshift (rho {rm gas}/bar{rho }{rm bar}lesssim 10 3, and T pdbl 105 K), regions that are likely to contain most of the missing baryons in the local Universe.
KW - dark matter
KW - galaxies: haloes
KW - hydrodynamics
KW - intergalactic medium
KW - large-scale structure of Universe
UR - http://www.scopus.com/inward/record.url?scp=85126648124&partnerID=8YFLogxK
U2 - 10.1093/mnras/stab3281
DO - 10.1093/mnras/stab3281
M3 - Article
AN - SCOPUS:85126648124
SN - 0035-8711
VL - 510
SP - 399
EP - 412
JO - Monthly Notices of the Royal Astronomical Society
JF - Monthly Notices of the Royal Astronomical Society
IS - 1
ER -