2013
DOI: 10.1088/0004-637x/768/1/74
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PHIBSS: MOLECULAR GAS CONTENT AND SCALING RELATIONS INz∼ 1-3 MASSIVE, MAIN-SEQUENCE STAR-FORMING GALAXIES

Abstract: We present PHIBSS, the IRAM Plateau de Bure high-z blue sequence CO 3-2 survey of the molecular gas properties in normal star forming galaxies (SFGs) near the cosmic star formation peak. PHIBSS provides 52 CO detections in two redshift slices at z~1.2 and 2.2, with log(M * (M  )) ≥10.4 and log(SFR(M  /yr)) ≥ 1.5.Including a correction for the incomplete coverage of the M * -SFR plane, we infer average gas fractions of ~0.33 at z~1.2 and ~0.47 at z~2.2. Gas fractions drop with stellar mass, in agreement with … Show more

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Cited by 871 publications
(1,333 citation statements)
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References 158 publications
(228 reference statements)
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“…Measurements of high-z star forming galaxies (ranging from relatively quiescent BzK galaxies, forming at ∼ 10 − 100 M yr −1 , to dusty starbursts), suggest gas fractions ranging from f gas ∼ 0.2 − 0.8 (e.g. Daddi et al, 2010a;Tacconi et al, 2010;Geach et al, 2011;Magdis et al, 2012b;Combes et al, 2013;Tacconi et al, 2013). This is to be compared to local galaxies, which show typical gas fractions f gas < 10% (e.g.…”
Section: Molecular Gas Fractionsmentioning
confidence: 92%
“…Measurements of high-z star forming galaxies (ranging from relatively quiescent BzK galaxies, forming at ∼ 10 − 100 M yr −1 , to dusty starbursts), suggest gas fractions ranging from f gas ∼ 0.2 − 0.8 (e.g. Daddi et al, 2010a;Tacconi et al, 2010;Geach et al, 2011;Magdis et al, 2012b;Combes et al, 2013;Tacconi et al, 2013). This is to be compared to local galaxies, which show typical gas fractions f gas < 10% (e.g.…”
Section: Molecular Gas Fractionsmentioning
confidence: 92%
“…CO data were retrieved from nine studies Daddi et al 2010;Geach et al 2011;Saintonge et al 2011a;Bauermeister et al 2013;Tacconi et al 2013;Boselli et al 2014;Bothwell et al 2014;Morokuma-Matsui et al 2015) to cover a wide range of redshifts and stellar masses. We adopted the Galactic conversion factor of αCO = 4.35 M⊙(K km s −1 pc 2 ) −1 (including the contribution of helium; Bolatto et al 2013) for all the sample galaxies 2 considered in this study to estimate the molecular gas mass as where L ′ CO represents the luminosity of the 12 CO(J = 1−0) line in units of K km s −1 pc 2 .…”
Section: Measurement Of Molecular Gas Mass From Comentioning
confidence: 99%
“…We adopted the Galactic conversion factor of αCO = 4.35 M⊙(K km s −1 pc 2 ) −1 (including the contribution of helium; Bolatto et al 2013) for all the sample galaxies 2 considered in this study to estimate the molecular gas mass as where L ′ CO represents the luminosity of the 12 CO(J = 1−0) line in units of K km s −1 pc 2 . The CO data of Leroy et al (2008), Bothwell et al (2014), Tacconi et al (2013), and Daddi et al (2010) are not based on 12 CO(J = 1 − 0) observations but based on 12 CO(J = 3 − 2) or 12 CO(J = 2 − 1). The conversions to 12 CO(J = 1 − 0) intensity assumed in these studies are described in the following lists.…”
Section: Measurement Of Molecular Gas Mass From Comentioning
confidence: 99%
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