UV Star Formation Rates in the Local Universe

Salim, Samir; Rich, R. Michael; Charlot, S.; Brinchmann, Jarle; Johnson, Benjamin D.; Schiminovich, David; Seibert, Mark; Mallery, Ryan P.; Heckman, Timothy M.; Forster, Karl; Friedman, Peter G.; Martin, D. Christopher; Morrissey, Patrick; Neff, Susan G.; Small, Todd; Wyder, Ted K.; Bianchi, Luciana; Donas, J.; Lee, Young-Wook; Madore, Barry F.; Milliard, B.; Szalay, Alexander S.; Welsh, Barry Y.; Yi, Sukyoung K.

doi:10.1086/519218

Cited by 1,562 publications

(2,070 citation statements)

References 83 publications

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“…This scenario is supported by the observation of low gas fraction in AGN host galaxies (e.g., Brusa et al 2015;Kakkad et al 2017), as well as the AGNdriven molecular gas outflow (Cicone et al 2014;Feruglio et al 2015). In addition, it has been reported that AGN hosts preferentially lie in the green valley or below the main sequence (Nandra et al 2007;Salim et al 2007;Silverman et al 2008;Ellison et al 2016;Smith et al 2016), suggesting that AGN could drive the transition from the star-forming to the quiescent phases. Recently, a spatially resolved star formation rate study using MaNGA galaxies also finds that the resolved sSFR of unbarred AGN hosts is below the resolved main sequence (L. Bing et al 2017, in preparation) across the entire galaxies, similar to the three cases presented in this work.…”

Section: Discussionmentioning

confidence: 69%

SDSS-IV MaNGA-resolved Star Formation and Molecular Gas Properties of Green Valley Galaxies: A First Look with ALMA and MaNGA

Lin

Belfiore

Pan

et al. 2017

ApJ

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We study the role of cold gas in quenching star formation in the green valley by analyzing ALMA 12 CO (1-0) observations of three galaxies with resolved optical spectroscopy from the MaNGA survey. We present resolution-matched maps of the star formation rate and molecular gas mass. These data are used to calculate the star formation efficiency (SFE) and gas fraction ( f gas ) for these galaxies separately in the central "bulge" regions and outer disks. We find that, for the two galaxies whose global specific star formation rate (sSFR) deviates most from the star formation main sequence, the gas fraction in the bulges is significantly lower than that in their disks, supporting an "inside-out" model of galaxy quenching. For the two galaxies where SFE can be reliably determined in the central regions, the bulges and disks share similar SFEs. This suggests that a decline in f gas is the main driver of lowered sSFR in bulges compared to disks in green valley galaxies. Within the disks, there exist common correlations between the sSFR and SFE and between sSFR and f gas on kiloparsec scales-the local SFE or f gas in the disks declines with local sSFR. Our results support a picture in which the sSFR in bulges is primarily controlled by f gas , whereas both SFE and f gas play a role in lowering the sSFR in disks. A larger sample is required to confirm if the trend established in this work is representative of the green valley as a whole.

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Section: Discussionmentioning

confidence: 69%

SDSS-IV MaNGA-resolved Star Formation and Molecular Gas Properties of Green Valley Galaxies: A First Look with ALMA and MaNGA

Lin

Belfiore

Pan

et al. 2017

ApJ

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“…This catalogue provides, among other parameters, stellar masses based on fits to the photometry following Kauffmann et al (2003) and Salim et al (2007), and star formation rates based on Brinchmann et al (2004).…”

Section: Specific Star Formation Ratementioning

confidence: 99%

Galaxies infalling into groups: filaments versus isotropic infall

Martínez

Muriel

Coenda

2015

Mon. Not. R. Astron. Soc.

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We perform a comparative analysis of the properties of galaxies infalling into groups classifying them accordingly to whether they are: falling along filamentary structures; or they are falling isotropically. For this purpose, we identify filamentary structures connecting massive groups of galaxies in the SDSS. We perform a comparative analysis of some properties of galaxies in filaments, in the isotropic infall region, in the field, and in groups. We study the luminosity functions (LF) and the dependence of the specific star formation rate (SSFR) on stellar mass, galaxy type, and projected distance to the groups that define the filaments. We find that the LF of galaxies in filaments and in the isotropic infalling region are basically indistinguishable between them, with the possible exception of late-type galaxies. On the other hard, regardless of galaxy type, their LFs are clearly different from that of field or group galaxies. Both of them have characteristic absolute magnitudes and faint end slopes in between the field and group values. More significant differences between galaxies in filaments and in the isotropic infall region are observed when we analyse the SSFR. We find that galaxies in filaments have a systematically higher fraction of galaxies with low SSFR as a function of both, stellar mass and distance to the groups, indicating a stronger quenching of the star formation in the filaments compared to both, the isotropic infalling region, and the field. Our results suggest that some physical mechanisms that determine the differences observed between field galaxies and galaxies in systems, affect galaxies even when they are not yet within the systems.

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“…However, the scaling relations offer a convenient method to compare the SFR properties in a large galaxy sample. To estimate the SFR in our galaxy sample, we use the calibration in Salim et al (2007), which was derived to suit the GALEX wavebands. This relation is valid in the "constant star formation approximation" where the SFR is assumed to remain constant over the lifetime of the UV-emitting population ( 10 8 < year).…”

Section: Sfr Estimation Using Fuvmentioning

confidence: 99%

“…Also, these Sy1 have [FUV − K s ] 8.8 < mag. We estimate the SFR using the following relation from Salim et al (2007), M L SFR yr 1.08 10 erg Hz . 4…”

Section: Sfr Estimation Using Fuvmentioning

confidence: 99%

Constraints on Feedback in the Local Universe: The Relation Between Star Formation and Agn Activity in Early-Type Galaxies

Vaddi

O’Dea

Baum

et al. 2016

ApJ

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We address the relation between star formation and active galactic nucleus (AGN) activity in a sample of 231 nearby (0.0002 < z < 0.0358) early-type galaxies by carrying out a multi-wavelength study using archival observations in the UV, IR, and radio. Our results indicate that early-type galaxies in the current epoch are rarely powerful AGNs, with P 10 WHz 22 1 < -for a majority of the galaxies. Only massive galaxies are capable of hosting powerful radio sources while less massive galaxies are hosts to lower radio power sources. Evidence of ongoing star formation is seen in approximately 7% of the sample. The star formation rate (SFR) of these galaxies is less than 0.1 M e yr −1 . They also tend to be radio faint (P 10 WHzThere is a nearly equal fraction of star-forming galaxies in radio faint (P 10 WHz 22 1 < -) and radio bright galaxies (P 10 WHz 22 1  -) suggesting that both star formation and radio mode feedback are constrained to be very low in our sample. We notice that our galaxy sample and the Brightest Cluster Galaxies follow similar trends in radio power versus SFR. This may be produced if both radio power and SFR are related to stellar mass.

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UV Star Formation Rates in the Local Universe

Cited by 1,562 publications

References 83 publications

SDSS-IV MaNGA-resolved Star Formation and Molecular Gas Properties of Green Valley Galaxies: A First Look with ALMA and MaNGA

SDSS-IV MaNGA-resolved Star Formation and Molecular Gas Properties of Green Valley Galaxies: A First Look with ALMA and MaNGA

Galaxies infalling into groups: filaments versus isotropic infall

Constraints on Feedback in the Local Universe: The Relation Between Star Formation and Agn Activity in Early-Type Galaxies

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