The relation between cool cluster cores and Herschel-detected star formation in brightest cluster galaxies

T. D. Rawle; A. C. Edge; E. Egami; M. Rex; G. P. Smith; B. Altieri; A. Fiedler; C. P. Haines; M. J. Pereira; P. G. Pérez-González; J. Portouw; I. Valtchanov; G. Walth; P. P. Van Der Werf; M. Zemcov

doi:10.1088/0004-637X/747/1/29

The relation between cool cluster cores and Herschel-detected star formation in brightest cluster galaxies

T. D. Rawle
, A. C. Edge
, E. Egami
, M. Rex
, G. P. Smith
, B. Altieri
, A. Fiedler
, C. P. Haines
, M. J. Pereira
, P. G. Pérez-González
, J. Portouw
, I. Valtchanov
, G. Walth
, P. P. Van Der Werf
, M. Zemcov

Steward Observatory

Research output: Contribution to journal › Article › peer-review

84 Scopus citations

Abstract

We present far-infrared (FIR) analysis of 68 brightest cluster galaxies (BCGs) at 0.08 < z < 1.0. Deriving total infrared luminosities directly from Spitzer and Herschel photometry spanning the peak of the dust component (24-500 μm), we calculate the obscured star formation rate (SFR). 22 ^+6.2 _-5.3% of the BCGs are detected in the far-infrared, with SFR = 1-150 M ⊙yr^-1. The infrared luminosity is highly correlated with cluster X-ray gas cooling times for cool-core clusters (gas cooling time <1Gyr), strongly suggesting that the star formation in these BCGs is influenced by the cluster-scale cooling process. The occurrence of the molecular gas tracing Hα emission is also correlated with obscured star formation. For all but the most luminous BCGs (L _TIR > 2 × 10¹¹ L ⊙), only a small (≲0.4mag) reddening correction is required for SFR(Hα) to agree with SFR_FIR. The relatively low Hα extinction (dust obscuration), compared to values reported for the general star-forming population, lends further weight to an alternate (external) origin for the cold gas. Finally, we use a stacking analysis of non-cool-core clusters to show that the majority of the fuel for star formation in the FIR-bright BCGs is unlikely to originate from normal stellar mass loss.

Original language	English (US)
Article number	29
Journal	Astrophysical Journal
Volume	747
Issue number	1
DOIs	https://doi.org/10.1088/0004-637X/747/1/29
State	Published - Mar 1 2012

Keywords

galaxies: clusters: general
galaxies: elliptical and lenticular, cD
galaxies: star formation
infrared: galaxies

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1088/0004-637X/747/1/29

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Rawle, T. D., Edge, A. C., Egami, E., Rex, M., Smith, G. P., Altieri, B., Fiedler, A., Haines, C. P., Pereira, M. J., Pérez-González, P. G., Portouw, J., Valtchanov, I., Walth, G., Van Der Werf, P. P., & Zemcov, M. (2012). The relation between cool cluster cores and Herschel-detected star formation in brightest cluster galaxies. Astrophysical Journal, 747(1), Article 29. https://doi.org/10.1088/0004-637X/747/1/29

Rawle, TD, Edge, AC, Egami, E, Rex, M, Smith, GP, Altieri, B, Fiedler, A, Haines, CP, Pereira, MJ, Pérez-González, PG, Portouw, J, Valtchanov, I, Walth, G, Van Der Werf, PP & Zemcov, M 2012, 'The relation between cool cluster cores and Herschel-detected star formation in brightest cluster galaxies', Astrophysical Journal, vol. 747, no. 1, 29. https://doi.org/10.1088/0004-637X/747/1/29

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title = "The relation between cool cluster cores and Herschel-detected star formation in brightest cluster galaxies",

abstract = "We present far-infrared (FIR) analysis of 68 brightest cluster galaxies (BCGs) at 0.08 < z < 1.0. Deriving total infrared luminosities directly from Spitzer and Herschel photometry spanning the peak of the dust component (24-500 μm), we calculate the obscured star formation rate (SFR). 22 +6.2 -5.3\% of the BCGs are detected in the far-infrared, with SFR = 1-150 M ⊙yr-1. The infrared luminosity is highly correlated with cluster X-ray gas cooling times for cool-core clusters (gas cooling time <1Gyr), strongly suggesting that the star formation in these BCGs is influenced by the cluster-scale cooling process. The occurrence of the molecular gas tracing Hα emission is also correlated with obscured star formation. For all but the most luminous BCGs (L TIR > 2 × 1011 L ⊙), only a small (≲0.4mag) reddening correction is required for SFR(Hα) to agree with SFRFIR. The relatively low Hα extinction (dust obscuration), compared to values reported for the general star-forming population, lends further weight to an alternate (external) origin for the cold gas. Finally, we use a stacking analysis of non-cool-core clusters to show that the majority of the fuel for star formation in the FIR-bright BCGs is unlikely to originate from normal stellar mass loss.",

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T1 - The relation between cool cluster cores and Herschel-detected star formation in brightest cluster galaxies

AU - Rawle, T. D.

AU - Edge, A. C.

AU - Egami, E.

AU - Rex, M.

AU - Smith, G. P.

AU - Altieri, B.

AU - Fiedler, A.

AU - Haines, C. P.

AU - Pereira, M. J.

AU - Pérez-González, P. G.

AU - Portouw, J.

AU - Valtchanov, I.

AU - Walth, G.

AU - Van Der Werf, P. P.

AU - Zemcov, M.

PY - 2012/3/1

Y1 - 2012/3/1

N2 - We present far-infrared (FIR) analysis of 68 brightest cluster galaxies (BCGs) at 0.08 < z < 1.0. Deriving total infrared luminosities directly from Spitzer and Herschel photometry spanning the peak of the dust component (24-500 μm), we calculate the obscured star formation rate (SFR). 22 +6.2 -5.3% of the BCGs are detected in the far-infrared, with SFR = 1-150 M ⊙yr-1. The infrared luminosity is highly correlated with cluster X-ray gas cooling times for cool-core clusters (gas cooling time <1Gyr), strongly suggesting that the star formation in these BCGs is influenced by the cluster-scale cooling process. The occurrence of the molecular gas tracing Hα emission is also correlated with obscured star formation. For all but the most luminous BCGs (L TIR > 2 × 1011 L ⊙), only a small (≲0.4mag) reddening correction is required for SFR(Hα) to agree with SFRFIR. The relatively low Hα extinction (dust obscuration), compared to values reported for the general star-forming population, lends further weight to an alternate (external) origin for the cold gas. Finally, we use a stacking analysis of non-cool-core clusters to show that the majority of the fuel for star formation in the FIR-bright BCGs is unlikely to originate from normal stellar mass loss.

AB - We present far-infrared (FIR) analysis of 68 brightest cluster galaxies (BCGs) at 0.08 < z < 1.0. Deriving total infrared luminosities directly from Spitzer and Herschel photometry spanning the peak of the dust component (24-500 μm), we calculate the obscured star formation rate (SFR). 22 +6.2 -5.3% of the BCGs are detected in the far-infrared, with SFR = 1-150 M ⊙yr-1. The infrared luminosity is highly correlated with cluster X-ray gas cooling times for cool-core clusters (gas cooling time <1Gyr), strongly suggesting that the star formation in these BCGs is influenced by the cluster-scale cooling process. The occurrence of the molecular gas tracing Hα emission is also correlated with obscured star formation. For all but the most luminous BCGs (L TIR > 2 × 1011 L ⊙), only a small (≲0.4mag) reddening correction is required for SFR(Hα) to agree with SFRFIR. The relatively low Hα extinction (dust obscuration), compared to values reported for the general star-forming population, lends further weight to an alternate (external) origin for the cold gas. Finally, we use a stacking analysis of non-cool-core clusters to show that the majority of the fuel for star formation in the FIR-bright BCGs is unlikely to originate from normal stellar mass loss.

KW - galaxies: clusters: general

KW - galaxies: elliptical and lenticular, cD

KW - galaxies: star formation

KW - infrared: galaxies

UR - https://www.scopus.com/pages/publications/84861657281

UR - https://www.scopus.com/pages/publications/84861657281#tab=citedBy

U2 - 10.1088/0004-637X/747/1/29

DO - 10.1088/0004-637X/747/1/29

M3 - Article

SN - 0004-637X

VL - 747

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 29

ER -

The relation between cool cluster cores and Herschel-detected star formation in brightest cluster galaxies

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Keywords

ASJC Scopus subject areas

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