Gas accretion and ram pressure stripping of haloes in void walls

Thompson, Benjamin B.; Smith, R. J. E.; Kraljic, Katarina

doi:10.1093/mnras/stac2963

Monthly Notices of the Royal Astronomical Society

2022

DOI: 10.1093/mnras/stac2963

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Gas accretion and ram pressure stripping of haloes in void walls

Benjamin B. Thompson

R. J. E. Smith

Katarina Kraljic

Abstract: We conduct hydrodynamical cosmological zoom simulations of fourteen voids to study the ability of haloes to accrete gas at different locations throughout the voids at z = 0. Measuring the relative velocity of haloes with respect to their ambient gas, we find that a tenth of the haloes are expected to be unable to accrete external gas due to its fast flow passed them (so called ‘fast flow haloes’). These are typically located near void walls. We determine that these haloes have recently crossed the void wall an… Show more

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Cited by 4 publications

References 101 publications

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Enhanced destruction of cluster satellites by major mergers

Dong,

Smith,

Shin

et al. 2023

Monthly Notices of the Royal Astronomical Society

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Using a set of clusters in dark matter only cosmological simulations, we study the consequences of merging of clusters and groups of galaxies (with mass ratio larger than 5:1) to investigate the tidal impact of mergers on the satellite haloes. We compare our results to a control sample of clusters that have had no major mergers over the same time period. Clusters that undergo major mergers are found to have a significant enhancement in destruction of their subhaloes of ∼10–30 per cent, depending on how major the merger is. Those with mass ratios less than 7:1 showed no significant enhancement. The number of destroyed subhaloes are measured for the cluster members that were inside the virial radius of clusters before the merger begins. This means preprocessed galaxies brought in by the merger are deliberately excluded, allowing us to clearly see the enhanced destruction purely as a result of the distorted and disturbed tidal field of the cluster during the merger. We also consider secondary parameters affecting the destruction of those satellites but find that the major mergers are the dominant factor. These results highlight how major mergers can significantly impact the cluster population, with likely consequences for the formation of intracluster light, and enhancement of tidal features in the remaining satellites.

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Enhanced destruction of cluster satellites by major mergers

Dong,

Smith,

Shin

et al. 2023

Monthly Notices of the Royal Astronomical Society

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

Rodríguez-Medrano

Paz

Stasyszyn

et al. 2023

Monthly Notices of the Royal Astronomical Society

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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 characterise the local environment and studied the properties of galaxies as a function of total and stellar masses, separately analyzing those in voids and the general sample. Our results show that galaxies that inhabit haloes of a given mass (below ∼ 1013.5M⊙), 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.

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The effect of cosmic web filaments on galaxy properties in the RESOLVE and ECO surveys

Hoosain,

Blyth,

Skelton

et al. 2024

Monthly Notices of the Royal Astronomical Society

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Galaxy environment plays an important role in driving the transformation of galaxies from blue and star-forming to red and quenched. Recent works have focused on the role of cosmic web filaments in galaxy evolution and have suggested that stellar mass segregation, quenching of star formation and gas-stripping may occur within filaments. We study the relationship between distance to filament and the stellar mass, colour and H i gas content of galaxies using data from the REsolved Spectroscopy of a Local VolumE (RESOLVE) survey and Environmental COntext (ECO) catalogue, two overlapping census-style, volume-complete surveys. We use the Discrete Persistence Structures Extractor (DisPerSE) to identify cosmic web filaments over the full ECO area. We find that galaxies close to filaments have higher stellar masses, in agreement with previous results. Controlling for stellar mass, we find that galaxies also have redder colours and are more gas poor closer to filaments. When accounting for group membership and halo mass, we find that these trends in colour and gas content are dominated by the increasing prevalence of galaxy group environments close to filaments, particularly for high halo mass and low stellar mass galaxies. Filaments have an additional small effect on the gas content of galaxies in low-mass haloes, possibly due to cosmic web stripping.

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Gas accretion and ram pressure stripping of haloes in void walls

Cited by 4 publications

References 101 publications

Enhanced destruction of cluster satellites by major mergers

Enhanced destruction of cluster satellites by major mergers

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

The effect of cosmic web filaments on galaxy properties in the RESOLVE and ECO surveys

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