Angular momentum-related probe of cold gas deficiencies

Jie, Li,; Obreschkow, Danail; Lagos, Claudia del P.; Cortese, Luca; Welker, Charlotte; Džudžar, Robert

doi:10.1093/mnras/staa514

Cited by 15 publications

(17 citation statements)

References 70 publications

(130 reference statements)

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“…While this is arguably a more physically motivated definition of HI deficiency (but see also Romeo & Mogotsi 2018 for some potential limitations of this approach), the basic assumptions are the same behind the original HG84 definition. Indeed, Li et al (2020) show that (at least in the case of galaxies in the Virgo cluster) the two definitions provide remarkably consistent results.…”

Section: Definitions Based On Specific Angular Momentummentioning

confidence: 71%

“…In recent years, independent works have put forward a new definition of gas deficiency based on the angular momentum properties of galaxies. This idea has been proposed by a few authors throughout the last few decades (e.g., Zasov & Rubtsova 1989;Safonova 2011) and most recently expanded by Li et al (2020). Their approach is based on the assumption that, for a flat exponential disc with circular rotation, the maximum allowed, stable value of gas fraction strongly depends on the mass and kinematics of the disc.…”

Section: Definitions Based On Specific Angular Momentummentioning

confidence: 99%

“…One of the key reasons why the above limitations have rarely been discussed in the literature is that we are still lacking galaxy samples that simultaneously cover wide ranges of environments (to include both gas-rich and gas-deficient systems), are representative of the local galaxy population (to calibrate reliable scaling relations) and for which sizes, luminosities and angular momentum can be homogeneously estimated (see however HG84, Cortese et al 2011;Teimoorinia, Ellison, & Patton 2017;Li et al 2020 for discussions on different gas deficiency definitions and gas predictors in general).…”

Section: A Direct Comparison Of Different Gas Deficiency Definitionsmentioning

confidence: 99%

See 2 more Smart Citations

The Dawes Review 9: The role of cold gas stripping on the star formation quenching of satellite galaxies

Cortese

Catinella

Smith

2021

Publ. Astron. Soc. Aust.

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125

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One of the key open questions in extragalactic astronomy is what stops star formation in galaxies. While it is clear that the cold gas reservoir, which fuels the formation of new stars, must be affected first, how this happens and what are the dominant physical mechanisms involved is still a matter of debate. At least for satellite galaxies, it is generally accepted that internal processes alone cannot be responsible for fully quenching their star formation, but that environment should play an important, if not dominant, role. In nearby clusters, we see examples of cold gas being removed from the star-forming discs of galaxies moving through the intracluster medium, but whether active stripping is widespread and/or necessary to halt star formation in satellites, or quenching is just a consequence of the inability of these galaxies to replenish their cold gas reservoirs, remains unclear. In this work, we review the current status of environmental studies of cold gas in star-forming satellites in the local Universe from an observational perspective, focusing on the evidence for a physical link between cold gas stripping and quenching of the star formation. We find that stripping of cold gas is ubiquitous in satellite galaxies in both group and cluster environments. While hydrodynamical mechanisms such as ram pressure are important, the emerging picture across the full range of dark matter halos and stellar masses is a complex one, where different physical mechanisms may act simultaneously and cannot always be easily separated. Most importantly, we show that stripping does not always lead to full quenching, as only a fraction of the cold gas reservoir might be affected at the first pericentre passage. We argue that this is a key point to reconcile apparent tensions between statistical and detailed analyses of satellite galaxies, as well as disagreements between various estimates of quenching timescales. We conclude by highlighting several outstanding questions where we expect to see substantial progress in the coming decades, thanks to the advent of the Square Kilometre Array and its precursors, as well as the next-generation optical and millimeter facilities.

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Section: Definitions Based On Specific Angular Momentummentioning

confidence: 71%

Section: Definitions Based On Specific Angular Momentummentioning

confidence: 99%

Section: A Direct Comparison Of Different Gas Deficiency Definitionsmentioning

confidence: 99%

See 1 more Smart Citation

The Dawes Review 9: The role of cold gas stripping on the star formation quenching of satellite galaxies

Cortese

Catinella

Smith

2021

Publ. Astron. Soc. Aust.

Self Cite

125

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“…In a Λ cold dark matter (ΛCDM) universe, baryons cool, fall inwards, and form centrifugally supported disks in the centers of halos. The specific angular momentum (sAM) sets the pressure, instabilities, gas fractions (Obreschkow et al 2016;Romeo & Mogotsi 2018;Romeo 2020;Li et al 2020), and most importantly determines the disk properties, such as size (e.g., White & Rees 1978;Fall & Efstathiou 1980;Fall 1983;Mo et al 1998;Dalcanton et al 1997;van den Bosch et al 2003;Dutton & van den Bosch 2009;Somerville et al 2018). As disks evolve from z = 2 to the present, they must grow from a vast reservoir of corotating cold accreting material in the circumgalactic medium (CGM) as argued in Renzini (2020).…”

Section: Introductionmentioning

confidence: 99%

“…This paper aims to show that the j − M relation can be characterized in small and low-mass galaxies at redshifts from z = 0.4-1.4, opening up new parameter space thanks to the MUSE instrument and to our 3D modeling approach. Contrary to galaxies in the local universe where the j − M relation can be studied independently for the stellar j or gas components j gas (e.g., Obreschkow & Glazebrook 2014;Obreschkow et al 2016;Li et al 2020;Mancera Piña et al 2021), this is currently extremely challenging in distant galaxies at z 1.0 or beyond. One should note that the gas sAM j gas in this context is derived solely from H i data at z = 0, and it is often assumed that the sAM for the star-forming gas (molecular or ionized) is similar to j because of the similar extent (Leroy et al 2008;Nelson et al 2016;Wilman et al 2020) and kinematics (Martinsson et al 2013;Lang et al 2020) 1 .…”

Section: Introductionmentioning

confidence: 99%

The MUSEHubbleUltra Deep Field Survey

Bouché

Genel

Pellissier

et al. 2021

A&A

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We investigate the specific angular momentum (sAM) j(< r) profiles of intermediate redshift (0.4 < z < 1.4) star-forming galaxies (SFGs) in the relatively unexplored regime of low masses (down to M⋆ ∼ 108 M⊙) and small sizes (down to Re ∼ 1.5 kpc), and we characterize the sAM scaling relation (i.e., Fall relation) and its redshift evolution. We have developed a 3D methodology to constrain sAM profiles of the star-forming gas using a forward modeling approach with GAlPAK3D that incorporates the effects of beam smearing, yielding the intrinsic morpho-kinematic properties even with limited spatial resolution data. Using mock observations from the TNG50 simulation, we find that our 3D methodology robustly recovers the star formation rate (SFR)-weighted j̃⋆(<r) profiles down to a low effective signal-to-noise ratio of ⪆3. We applied our methodology blindly to a sample of 494 [O II]-selected SFGs in the MUSE Ultra Deep Field (UDF) 9 arcmin2 mosaic data, covering the unexplored 8 < log M⋆/M⊙ < 9 mass range. We find that the (SFR-weighted) sAM relation follows j̃⋆ ∝ M⋆α with an index α varying from α = 0.3 to α = 0.5, from log M⋆/M⊙ = 8 to log M⋆/M⊙ = 10.5. The UDF sample supports a redshift evolution j̃⋆ ∝(1+z)a, with a = −0.27−0.56+0.42 which is consistent with the (1 + z)−0.5 expectation from a universe in expansion. The scatter of the sAM sequence is a strong function of the dynamical state with logj|M⋆ ∝ 0.65−0.08+0.06 × log(Vmax/σ), where σ is the velocity dispersion at 2Re. In TNG50, SFGs also form a j̃⋆−M⋆−(V/σ) plane, but it correlates more with galaxy size than with morphological parameters. Our results suggest that SFGs might experience a dynamical transformation, and lose their sAM, before their morphological transformation to becoming passive via either merging or secular evolution.

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The influence of angular momentum and environment on the H i gas of late-type galaxies

Murugeshan

Kilborn

Jarrett

et al. 2020

Monthly Notices of the Royal Astronomical Society

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We use high-resolution H i data from the Westerbork H i Survey of Spiral and Irregular Galaxies (WHISP) to study the H i and angular momentum properties of a sample of 114 late-type galaxies. We explore the specific baryonic angular momentum–baryonic mass (jb–Mb) relation, and find that an unbroken power law of the form $j_\mathrm{ b} \propto M_\mathrm{ b}^{0.55 \pm 0.02}$ fits the data well, with an intrinsic scatter of ∼0.13 ± 0.01 dex. We revisit the relation between the atomic gas fraction, fatm, and the integrated atomic stability parameter q (the fatm–q relation), originally introduced by Obreschkow et al., and probe this parameter space by populating it with galaxies from different environments, in order to study the influence of the environment on their jb, fatm, and q values. We find evidence that galaxies with close neighbours show a larger intrinsic scatter about the fatm–q relation compared to galaxies without close neighbours. We also find enhanced star formation rate among the deviating galaxies with close neighbours. In addition, we use the bulge-to-total (B/T) ratio as a morphology proxy, and find a general trend of decreasing B/T values with increasing disc stability and H i fraction in the fatm–q plane, indicating a fundamental link between mass, specific angular momentum, gas fraction, and morphology of galaxies.

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Angular momentum-related probe of cold gas deficiencies

Cited by 15 publications

References 70 publications

The Dawes Review 9: The role of cold gas stripping on the star formation quenching of satellite galaxies

The Dawes Review 9: The role of cold gas stripping on the star formation quenching of satellite galaxies

The MUSEHubbleUltra Deep Field Survey

The influence of angular momentum and environment on the H i gas of late-type galaxies

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