The void galaxy survey: photometry, structure and identity of void galaxies

Beygu, B.; Peletier, Reynier F.; Hulst, J. M. van der; Jarrett, T. H.; Kreckel, Kathryn; Weygaert, Rien van de; Gorkom, J. H. van; Aragón-Calvo, M. A.

doi:10.1093/mnras/stw2362

Cited by 35 publications

(28 citation statements)

References 96 publications

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“…6, bottom panel). Without trying to over interpret these results given the fact the general galaxy population in voids consists of mostly small late-type spirals and massive ETGs are very rare (Croton et al 2005;Beygu et al 2017), the above findings suggest that DM haloes of ETGs are less dense when these objects live in low-density regions, even if more extended kinematic data are needed to confirm this, given the large errors affecting our DM densities. The same remark applies to the reported DM fractions, which are similar to the ones derived for cluster ETGs (see Table 5).…”

Section: Discussionmentioning

confidence: 80%

The density of dark matter haloes of early-type galaxies in low-density environments

Corsini

Wegner

Thomas

et al. 2016

Mon. Not. R. Astron. Soc.

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New photometric and long-slit spectroscopic observations are presented for NGC 7113, PGC 1852, and PGC 67207 which are three bright galaxies residing in low-density environments. The surface-brightness distribution is analysed from the K S -band images taken with adaptive optics at the Gemini North Telescope and the ugriz-band images from the Sloan Digital Sky Survey while the line-of-sight stellar velocity distribution and line-strength Lick indices inside the effective radius are measured along several position angles. The age, metallicity, and α-element abundance of the galaxies are estimated from single stellar-population models. In spite of the available morphological classification, images show that PGC 1852 is a barred spiral which we do not further consider for mass modelling. The structural parameters of the two early-type galaxies NGC 7113 and PGC 67207 are obtained from a two-dimensional photometric decomposition and the mass-to-light ratio of all the (luminous and dark) mass that follows the light is derived from orbit-based axisymmetric dynamical modelling together with the mass density of the dark matter halo. The dynamically derived mass that follows the light is about a factor of 2 larger than the stellar mass derived using stellar-population models with Kroupa initial mass function. Both galaxies have a lower content of halo dark matter with respect to early-type galaxies in high-density environments and in agreement with the predictions of semi-analytical models of galaxy formation.

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Section: Discussionmentioning

confidence: 80%

The density of dark matter haloes of early-type galaxies in low-density environments

Corsini

Wegner

Thomas

et al. 2016

Mon. Not. R. Astron. Soc.

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“…In this study, we explored the properties of the isolated quiescent galaxies in the void environments. Previous works have already shown that void galaxies tend to be bluer and have a statistically higher fraction of the late-type galaxies compared to the average galaxy environments (e.g., Rojas et al 2004Rojas et al , 2005Hoyle et al 2012;Kreckel et al 2012;Liu et al 2015;Beygu et al 2017). We have shown that the total fraction of the quiescent galaxies in the void regions is about ∼ 18% down to a limiting magnitude of -19 in the r-band, and the fraction of the isolated quiescent ones is ∼ 14%.…”

Section: Discussionmentioning

confidence: 97%

Stellar Mass Profiles of Quiescent Galaxies in Different Environments at z ∼ 0

Mosleh

Tavasoli

Tacchella

2018

ApJ

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We present the stellar mass profiles of 147 isolated quiescent galaxies in very low-density environments (i.e., void regions) in the local Universe (0.01 < z < 0.06) from the Sloan Digital Sky Survey. These galaxies have stellar masses between 9.8 log(M * /M ) 11.2 and they represent ∼ 15% of the whole galaxy population in the void regions down to M r = −19. We do not find any isolated quiescent galaxies with log(M * /M ) 11.2. We compare the stellar mass profiles of these isolated quiescent galaxies with the profiles of stellar mass-matched samples of the quiescent galaxies in group and cluster environments. We find that, at fixed mass, quiescent galaxies in voids have similar central (1 kpc) mass densities (Σ 1 ) and central velocity dispersions (σ 1 ) compared to their counterparts in groups and clusters. We show that quiescent galaxies in voids have at most 10 − 25% smaller half-mass (and half-light) sizes compared to quiescent galaxies in groups and clusters. We conclude that for the intermediate stellar mass range of 10 10 − 10 11 M in the local Universe, environmental mechanisms have no significant additional effect on the mass profiles of the quiescent galaxies.

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“…Voids also present a useful probe to understand the nature of galaxy formation. It is known that galaxies found in voids are typically spiral/irregularly-shaped and found to be HI rich, having low luminosity and stellar mass, and small size relative to the general population of galaxies (Tavasoli et al 2015, Beygu et al 2017, and Pustilnik et al 2019). This suggests that galaxy formation and evolution may have a dependence on the large scale dark matter density.…”

Section: Introductionmentioning

confidence: 99%

Probing Galaxy assembly bias in BOSS galaxies using void probabilities

Walsh

Tinker

2019

Monthly Notices of the Royal Astronomical Society

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We measure the void probability function (VPF) of galaxies in the Baryon Oscillation Spectroscopic Survey (BOSS). The VPF provides complementary information to standard two-point statistics in that it is sensitive to galaxy bias in the most extreme underdensities in the cosmic web. Thus the VPF is ideal for testing whether halo occupation of galaxies depends on large-scale density, an effect known as galaxy assembly bias. We find that standard HOD model-one parameterized by halo mass only-fit only to the two-point function, accurately predicts the VPF. Additionally, for HOD models where density dependence is explicitly incorporated, the best-fit models fit to the combination of the correlation function and the VPF have zero density dependence. Thus galaxy assembly bias is not a strong source of systematic uncertaintiy when modeling the clustering of massive galaxies.

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The void galaxy survey: photometry, structure and identity of void galaxies

Cited by 35 publications

References 96 publications

The density of dark matter haloes of early-type galaxies in low-density environments

The density of dark matter haloes of early-type galaxies in low-density environments

Stellar Mass Profiles of Quiescent Galaxies in Different Environments at z ∼ 0

Probing Galaxy assembly bias in BOSS galaxies using void probabilities

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