The Large, Oxygen-Rich Halos of Star-Forming Galaxies Are a Major Reservoir of Galactic Metals

Tumlinson, Jason; Thom, Christopher; Werk, Jessica K.; Prochaska, J. Xavier; Tripp, Todd M.; Weinberg, David H.; Peeples, Molly S.; O’Meara, John M.; Oppenheimer, Benjamin D.; Meiring, Joseph D.; Katz, Neal; Davé, Romeel; Ford, Amanda Brady; Sembach, Kenneth R.

doi:10.1126/science.1209840

Cited by 531 publications

(807 citation statements)

References 41 publications

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“…There is also a significant fraction of the blue galaxies showing large velocity differences between the radial velocity of the absorber and central galaxy (Dv up to 500 km s −1 ). Taken together with the COS-Halos results on the presence (absence) of highly ionized gas (seen as O VI absorbers Tumlinson et al 2011) in blue (red) galaxies, there are therefore real differences between the CGM surrounding star-forming and quiescent galaxies. Unfortunately, as discussed in Section 3.1, the data from the COS-GASS do not cover O VI; thus, we are not able to do the same analysis as done by Tumlinson et al (2011) for the combined sample.…”

Section: Discussionmentioning

confidence: 59%

“…Similar ionization parameters were also estimated by Shull et al (2009) 2 that are seen in our sample. Therefore, it is likely that most of these highly ionized absorbers are different from those detected in various other CGM and QSO-absorption studies (Chen et al 2001a;Wakker & Savage 2009;Tumlinson et al 2011;Borthakur et al 2013;Bordoloi et al 2014, and references therein). However, as discussed in detail by Werk et al (2014), Fox et al (2013), Meiring et al (2013), Lehner et al (2013), Tripp et al (2011), and references therein, O VI may represent a different phase of gas that differs from the ones traced by lower ionization transitions.…”

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confidence: 75%

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The Properties of the Circumgalactic Medium in Red and Blue Galaxies: Results From the Cos-Gass+cos-Halos Surveys

Borthakur

Heckman

Tumlinson

et al. 2016

ApJ

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We use the combined data from the COS-GASS and COS-Halos surveys to characterize the Circum-Galactic Medium (CGM) surrounding typical low-redshift galaxies in the mass range  *~-M M 10 9.5 11.5, and over a range of impact parameters extending to just beyond the halo virial radius (R vir ). We find the radial scale length of the distributions of the equivalent widths of the Lyαand Si III absorbers to be ∼1 and ∼0.4R vir , respectively. The radial distribution of equivalent widths is relatively uniform for the blue galaxies, but highly patchy (i.e., it has a low covering fraction) for the red galaxies. We also find that the Lyαand Si III equivalent widths show significant positive correlations with the specific star formation rate (sSFR) of the galaxy. We find a surprising lack of correlations between the halo mass (virial velocity) and either the velocity dispersions or velocity offsets of the Lyαlines. The ratio of the velocity offset to the velocity dispersion for the Lyαabsorbers has a mean value of ∼4, suggesting that a given line of sight is intersecting a dynamically coherent structure in the CGM, rather than a sea of orbiting clouds. The kinematic properties of the CGM are similar in the blue and red galaxies, although we find that a significantly larger fraction of the blue galaxies have large Lyαvelocity offsets (>200 km s −1 ). We show that-if the CGM clouds represent future fuel for star formation-our new results could imply a large drop in the sSFR across the galaxy mass-range we probe.

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Section: Discussionmentioning

confidence: 59%

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confidence: 75%

The Properties of the Circumgalactic Medium in Red and Blue Galaxies: Results From the Cos-Gass+cos-Halos Surveys

Borthakur

Heckman

Tumlinson

et al. 2016

ApJ

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“…Future work will analyze the source of metals, their eventual location, and the relative rates of pristine versus enriched accretion. Such metal distribution mechanisms can be directly constrained by observations of metal absorption lines in quasar spectra passing near galaxies, such as that obtained from the COS-Halos program (Tumlinson et al 2011;Ford et al 2016).…”

Section: Discussionmentioning

confidence: 99%

In-N-Out: The Gas Cycle From Dwarfs to Spiral Galaxies

Christensen

Davé

Governato

et al. 2016

ApJ

203

250

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We examine the scalings of galactic outflows with halo mass across a suite of 20 high-resolution cosmological zoom galaxy simulations covering halo masses in the range - . These simulations self-consistently generate outflows from the available supernova energy in a manner that successfully reproduces key galaxy observables, including the stellar mass-halo mass, Tully-Fisher, and mass-metallicity relations. We quantify the importance of ejective feedback to setting the stellar mass relative to the efficiency of gas accretion and star formation. Ejective feedback is increasingly important as galaxy mass decreases; we find an effective mass loading factor that scales asv circ 2.2 , with an amplitude and shape that are invariant with redshift. These scalings are consistent with analytic models for energy-driven wind, based solely on the halo potential. Recycling is common: about half of the outflow mass across all galaxy masses is later reaccreted. The recycling timescale is typically ∼1 Gyr, virtually independent of halo mass. Recycled material is reaccreted farther out in the disk and with typically ∼2-3 times more angular momentum. These results elucidate and quantify how the baryon cycle plausibly regulates star formation and alters the angular momentum distribution of disk material across the halo mass range where most cosmic star formation occurs.

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“…In the case, if the starburst activity lasts long time ( 300 Myr) or there are repeated bursts at the centre, the outflow properties (viz. velocity, metallicity etc) at ∼ 100-200 kpc also can be connected to the ongoing star formation process, as observed by Tumlinson et al (2011). Suppose one had defined the outer mass loading factor as the ratio between averaged mass outflow rate and the SFR as…”

Section: Definition Of Mass Loading Factormentioning

confidence: 93%

“…The mass loading factor estimated at the virial radius has important implications for understanding dynamical processes accompanying enrichment of the Universe. Recent observations of the extended circum-galactic haloes bearing metals up to distances 100 -200 kpc from the parent galaxy (Tumlinson et al 2011;Bordoloi et al 2014;Mathes et al 2014) call for a long-term numerical study covering passage of the outflows through the virial threshold. Hopkins et al (2012) also found that the outflowing gas is mostly dominated by warm gas (10 4 < T < 4 × 10 5 K), which is consistent with the results of Melioli et al (2013) who have simulated the outflow from M82.…”

Section: Introductionmentioning

confidence: 99%

Long way to go: how outflows from large galaxies propagate through the hot halo gas

Sarkar

Nath

Sharma

et al. 2015

Monthly Notices of the Royal Astronomical Society

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Using hydrodynamic simulations, we study the mass loss due to supernova-driven outflows from Milky Way type disk galaxies, paying particular attention to the effect of the extended hot halo gas. We find that the total mass loss at inner radii scales roughly linearly with total mass of stars formed, and that the mass loading factor at the virial radius can be several times its value at inner radii because of the swept up hot halo gas. The temperature distribution of the outflowing material in the inner region (∼10 kpc) is bimodal in nature, peaking at 10 5 K and 10 6.5 K, responsible for optical and X-ray emission, respectively. The contribution of cold/warm gas with temperature 10 5.5 K to the outflow rate within 10 kpc is ≈ 0.3-0.5. The warm mass loading factor, η 3e5 (T 3 × 10 5 K) is related to the mass loading factor at the virial radius (η v ) as η v ≈ 25 η 3e5 SFR/M ⊙ yr −1 −0.15 for a baryon fraction of 0.1 and a starburst period of 50 Myr. We also discuss the effect of multiple bursts that are separated by both short and long periods. The outflow speed at the virial radius is close to the sound speed in the hot halo, 200 km s −1 . We identify two 'sequences' of outflowing cold gas at small scales: a fast (≈ 500 km s −1 ) sequence, driven by the unshocked free-wind; and a slow sequence (≈ ±100 km s −1 ) at the conical interface of the superwind and the hot halo.

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The Large, Oxygen-Rich Halos of Star-Forming Galaxies Are a Major Reservoir of Galactic Metals

Cited by 531 publications

References 41 publications

The Properties of the Circumgalactic Medium in Red and Blue Galaxies: Results From the Cos-Gass+cos-Halos Surveys

The Properties of the Circumgalactic Medium in Red and Blue Galaxies: Results From the Cos-Gass+cos-Halos Surveys

In-N-Out: The Gas Cycle From Dwarfs to Spiral Galaxies

Long way to go: how outflows from large galaxies propagate through the hot halo gas

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