Local and large-scale effects on the astrophysics of void galaxies

Local and large-scale effects on the astrophysics of void galaxies

ABSTRACT Galaxies in cosmic voids have been reported with properties related to a delayed evolution compared to the rest of the Universe. These characteristics reflect the interaction of galaxies with the environment. However, it is not clear the degree of influence of the large-scale structure on t...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society Vol. 521; no. 1; pp. 916 - 925
Main Authors: Rodríguez-Medrano, Agustín M, Paz, Dante J, Stasyszyn, Federico A, Rodríguez, Facundo, Ruiz, Andrés N, Merchán, Manuel
Format: Journal Article
Language:English
Published: United States Oxford University Press 02-03-2023
Subjects:
Astronomy & Astrophysics
galaxies: evolution
galaxies: groups: general
large-scale structure of Universe
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Summary:ABSTRACT Galaxies in cosmic voids have been reported with properties related to a delayed evolution compared to the rest of the Universe. These characteristics reflect the interaction of galaxies with the environment. However, it is not clear the degree of influence of the large-scale structure on the properties of void galaxies or if these are only influenced by the low local density around them typical of these regions. In this article, we identified cosmic voids in the SDSS-DR16 and studied the g–r colour, star formation rate, and concentration of galaxies. We identified galaxy groups to characterize the local environment and studied the properties of galaxies as a function of total and stellar masses, separately analysing those in voids and the general sample. Our results show that galaxies that inhabit haloes of a given mass (below ${\sim}10^{13.5}{\rm M}_{\odot }$), are bluer, have a higher star formation rate and are less concentrated when the host halo is inside voids compared to other regions. For larger halo masses, the trend disappears. We also analyse whether the properties of galaxies are sensitive to the type of voids that inhabit. This is done by separating voids embedded in overdense regions (S-type) from those that asymptotically converge to the average density of the Universe (R-type). We found that galaxies in R-type voids are bluer, with higher SFR and less concentration than in S-type voids. Our results indicate some degree of correlation of galaxy properties with the large-scale environment provided by voids, suggesting possible second-order mechanisms in galaxy evolution.
Bibliography:USDOE
ISSN:0035-8711
1365-2966
DOI:10.1093/mnras/stad623