Resolved H I Imaging of a Population of Massive H I-Rich Galaxies With Suppressed Star Formation

Lemonias, Jenna J.; Schiminovich, David; Catinella, Barbara; Heckman, Timothy M.; Moran, Sean M.

doi:10.1088/0004-637x/790/1/27

Cited by 27 publications

(57 citation statements)

References 63 publications

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“…Star-forming regions (where the FUV emission is above 3σ) are marked by red dots, and non-star-forming regions (3σ FUV upper limit) are shown as black triangles. We also show the Bigiel et al (2010) and Lemonias et al (2014) samples in grey and green points (respectively) as a comparison. Constant gas depletion timescales of 10 9 − 10 12 yr are marked by black dashed lines.…”

Section: Uv Data: the Sf Properties Of Gass 3505mentioning

confidence: 99%

“…In a study by Lemonias et al (2014), the GASS and ALFALFA samples are used to select H I-rich galaxies with gas fractions in the top 5% of the GASS distribution. These galaxies have high gas fractions for their stellar masses, and are H I-massive with M HI > 10 10 M .…”

Section: The Hi-rich Samplesmentioning

confidence: 99%

“…These galaxies have high gas fractions for their stellar masses, and are H I-massive with M HI > 10 10 M . Within this sample, Lemonias et al (2014) identify a population where high H I masses are associated with unexpectedly low specific SFR-s. They show that low surface density gas is likely the reason behind the inefficient SF in these galaxies.…”

Section: The Hi-rich Samplesmentioning

confidence: 99%

“…The Bluedisk and Lemonias et al (2014) sample are massive galaxies with M > 10 10 M like GASS 3505, and for consistency we only consider HIghMass galaxies which meet this high stellar mass selection criteria. The NUV −r color information for Bluedisk and the Lemonias et al (2014) galaxies are taken from their published tables. For the HIghMass sample we extract the NUV magnitudes from GALEX and correct the NUV − r color for Galactic extinction following Wyder et al (2007).…”

Section: The Hi-rich Samplesmentioning

confidence: 99%

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GASS 3505: the prototype of H i-excess, passive galaxies

Geréb

Catinella

Cortese

et al. 2016

Mon. Not. R. Astron. Soc.

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We present our multiwavelength analysis of a prototype H I-excess galaxy, GASS 3505, selected based on having a large gas content (M HI = 10 9.9 M ) compared to its little associated star formation activity (∼0.1 M yr −1 ) in the GALEX Arecibo SDSS Survey (GASS). Very Large Array (VLA) observations show that the H I in GASS 3505 is distributed in a regularly rotating, extended (∼50 kpc radius) gas ring. In the SDSS optical image GASS 3505 appears as a bulge-dominated galaxy, however deep optical imaging reveals low surface brightness ( 25 mag arcsec −2 ) stellar emission around the central bulge. Direct evidence for accretion is detected in form of an extended (∼60 kpc) stellar stream, showing that GASS 3505 has experienced a minor merger in the recent past. We investigate the possibility that the H I ring in GASS 3505 was accreted in such a merger event using N-body and smoothed particle hydrodynamic (SPH) simulations. The best model that reproduces the general properties (i.e., gas distribution and kinematics, stellar morphology) of the galaxy involves a merger between the central bulge and a gas-rich (M = 10 9 M and M HI /M = 10) disk galaxy. However, small discrepancies in the observed and modeled properties could suggest that other sources of gas have to be involved in the build-up of the gas reservoir. This work is the first step toward a larger program to investigate the physical mechanisms that drive the large scatter in the gas scaling relations of nearby galaxies.

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Section: Uv Data: the Sf Properties Of Gass 3505mentioning

confidence: 99%

Section: The Hi-rich Samplesmentioning

confidence: 99%

Section: The Hi-rich Samplesmentioning

confidence: 99%

Section: The Hi-rich Samplesmentioning

confidence: 99%

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GASS 3505: the prototype of H i-excess, passive galaxies

Geréb

Catinella

Cortese

et al. 2016

Mon. Not. R. Astron. Soc.

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“…In the models considered here, only gas that is above a critical surface density is allowed to participate in star formation; galaxies with larger than average angular momentum form more extended disks, which have a larger fraction of their gas sitting below this critical surface density. There is observational evidence in the local universe for these gas rich but relatively quiescent disks (Lemonias et al 2014;Schiminovich et al 2010). Thus while the SFSs may be understood as a transient population, a step in the path from SFD to QS, it seems that QDs may be a static population.…”

Section: Individual Galaxy Historiesmentioning

confidence: 99%

Quenching and morphological transformation in semi-analytic models and CANDELS

Brennan

Pandya

Somerville

et al. 2015

Monthly Notices of the Royal Astronomical Society

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We examine the spheroid growth and star formation quenching experienced by galaxies since z ∼ 3 by studying the evolution with redshift of the quiescent and spheroid-dominated fractions of galaxies from the CANDELS and GAMA surveys. We compare the observed fractions with predictions from a semi-analytic model which includes prescriptions for bulge growth and AGN feedback due to mergers and disk instabilities. We facilitate direct morphological comparison by converting our model bulgeto-total stellar mass ratios to Sérsic indices. We then subdivide our population into the four quadrants of the sSFR-Sérsic index plane and study the buildup of each of these subpopulations. We find that the fraction of star forming disks declines steadily, while the fraction of quiescent spheroids builds up over cosmic time. The fractions of star forming spheroids and quiescent disks are both non-negligible, and stay nearly constant over the period we have studied. Our model is qualitatively successful at reproducing the evolution of the two "main" populations (star forming disks and quiescent spheroids), and approximately reproduces the relative fractions of all four types, but predicts a stronger decline in star forming spheroids, and increase in quiescent disks, than is seen in the observations. A model with an additional channel for bulge growth via disk instabilities agrees better overall with the observations than a model in which bulges can grow only through mergers. We also examine the relative importance of these different physical drivers of transformation (major and minor mergers and disk instabilities).

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Outskirts of spiral galaxies

Bresolin

2016

Proc. IAU

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Resolved H I Imaging of a Population of Massive H I-Rich Galaxies With Suppressed Star Formation

Cited by 27 publications

References 63 publications

GASS 3505: the prototype of H i-excess, passive galaxies

GASS 3505: the prototype of H i-excess, passive galaxies

Quenching and morphological transformation in semi-analytic models and CANDELS

Outskirts of spiral galaxies

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