Galaxy and Mass Assembly (GAMA): Ugriz galaxy luminosity functions

J. Loveday; P. Norberg; I. K. Baldry; S. P. Driver; A. M. Hopkins; J. A. Peacock; S. P. Bamford; J. Liske; J. Bland-Hawthorn; S. Brough; M. J.I. Brown; E. Cameron; C. J. Conselice; S. M. Croom; C. S. Frenk; M. Gunawardhana; D. T. Hill; D. H. Jones; L. S. Kelvin; K. Kuijken; R. C. Nichol; H. R. Parkinson; S. Phillipps; K. A. Pimbblet; C. C. Popescu; M. Prescott; A. S.G. Robotham; R. G. Sharp; W. J. Sutherland; E. N. Taylor; D. Thomas; R. J. Tuffs; E. van Kampen; D. Wijesinghe

doi:10.1111/j.1365-2966.2011.20111.x

Galaxy and Mass Assembly (GAMA): Ugriz galaxy luminosity functions

J. Loveday^*, P. Norberg, I. K. Baldry, S. P. Driver, A. M. Hopkins, J. A. Peacock, S. P. Bamford, J. Liske, J. Bland-Hawthorn, S. Brough, M. J.I. Brown, E. Cameron, C. J. Conselice, S. M. Croom, C. S. Frenk, M. Gunawardhana, D. T. Hill, D. H. Jones, L. S. Kelvin, K. KuijkenR. C. Nichol, H. R. Parkinson, S. Phillipps, K. A. Pimbblet, C. C. Popescu, M. Prescott, A. S.G. Robotham, R. G. Sharp, W. J. Sutherland, E. N. Taylor, D. Thomas, R. J. Tuffs, E. van Kampen, D. Wijesinghe

^*Corresponding author for this work

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

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Abstract

Galaxy and Mass Assembly (GAMA) is a project to study galaxy formation and evolution, combining imaging data from ultraviolet to radio with spectroscopic data from the AAOmega spectrograph on the Anglo-Australian Telescope. Using data from Phase 1 of GAMA, taken over three observing seasons, and correcting for various minor sources of incompleteness, we calculate galaxy luminosity functions (LFs) and their evolution in the ugriz passbands. At low redshift, z < 0.1, we find that blue galaxies, defined according to a magnitude-dependent but non-evolving colour cut, are reasonably well fitted over a range of more than 10 magnitudes by simple Schechter functions in all bands. Red galaxies, and the combined blue plus red sample, require double power-law Schechter functions to fit a dip in their LF faintwards of the characteristic magnitude M* before a steepening faint end. This upturn is at least partly due to dust-reddened disc galaxies. We measure the evolution of the galaxy LF over the redshift range 0.002 < z < 0.5 both by using a parametric fit and by measuring binned LFs in redshift slices. The characteristic luminosity L* is found to increase with redshift in all bands, with red galaxies showing stronger luminosity evolution than blue galaxies. The comoving number density of blue galaxies increases with redshift, while that of red galaxies decreases, consistent with prevailing movement from blue cloud to red sequence. As well as being more numerous at higher redshift, blue galaxies also dominate the overall luminosity density beyond redshifts z≃ 0.2. At lower redshifts, the luminosity density is dominated by red galaxies in the riz bands, and by blue galaxies in u and g.

Original language	English
Pages (from-to)	1239-1262
Number of pages	24
Journal	Monthly Notices of the Royal Astronomical Society
Volume	420
Issue number	2
DOIs	https://doi.org/10.1111/j.1365-2966.2011.20111.x
Publication status	Published - Feb 2012

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Loveday, J., Norberg, P., Baldry, I. K., Driver, S. P., Hopkins, A. M., Peacock, J. A., Bamford, S. P., Liske, J., Bland-Hawthorn, J., Brough, S., Brown, M. J. I., Cameron, E., Conselice, C. J., Croom, S. M., Frenk, C. S., Gunawardhana, M., Hill, D. T., Jones, D. H., Kelvin, L. S., ... Wijesinghe, D. (2012). Galaxy and Mass Assembly (GAMA): Ugriz galaxy luminosity functions. Monthly Notices of the Royal Astronomical Society, 420(2), 1239-1262. https://doi.org/10.1111/j.1365-2966.2011.20111.x

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title = "Galaxy and Mass Assembly (GAMA): Ugriz galaxy luminosity functions",

abstract = "Galaxy and Mass Assembly (GAMA) is a project to study galaxy formation and evolution, combining imaging data from ultraviolet to radio with spectroscopic data from the AAOmega spectrograph on the Anglo-Australian Telescope. Using data from Phase 1 of GAMA, taken over three observing seasons, and correcting for various minor sources of incompleteness, we calculate galaxy luminosity functions (LFs) and their evolution in the ugriz passbands. At low redshift, z < 0.1, we find that blue galaxies, defined according to a magnitude-dependent but non-evolving colour cut, are reasonably well fitted over a range of more than 10 magnitudes by simple Schechter functions in all bands. Red galaxies, and the combined blue plus red sample, require double power-law Schechter functions to fit a dip in their LF faintwards of the characteristic magnitude M* before a steepening faint end. This upturn is at least partly due to dust-reddened disc galaxies. We measure the evolution of the galaxy LF over the redshift range 0.002 < z < 0.5 both by using a parametric fit and by measuring binned LFs in redshift slices. The characteristic luminosity L* is found to increase with redshift in all bands, with red galaxies showing stronger luminosity evolution than blue galaxies. The comoving number density of blue galaxies increases with redshift, while that of red galaxies decreases, consistent with prevailing movement from blue cloud to red sequence. As well as being more numerous at higher redshift, blue galaxies also dominate the overall luminosity density beyond redshifts z≃ 0.2. At lower redshifts, the luminosity density is dominated by red galaxies in the riz bands, and by blue galaxies in u and g.",

keywords = "Galaxies: Evolution, Galaxies: Luminosity function, mass function, Galaxies: Statistics",

author = "J. Loveday and P. Norberg and Baldry, {I. K.} and Driver, {S. P.} and Hopkins, {A. M.} and Peacock, {J. A.} and Bamford, {S. P.} and J. Liske and J. Bland-Hawthorn and S. Brough and Brown, {M. J.I.} and E. Cameron and Conselice, {C. J.} and Croom, {S. M.} and Frenk, {C. S.} and M. Gunawardhana and Hill, {D. T.} and Jones, {D. H.} and Kelvin, {L. S.} and K. Kuijken and Nichol, {R. C.} and Parkinson, {H. R.} and S. Phillipps and Pimbblet, {K. A.} and Popescu, {C. C.} and M. Prescott and Robotham, {A. S.G.} and Sharp, {R. G.} and Sutherland, {W. J.} and Taylor, {E. N.} and D. Thomas and Tuffs, {R. J.} and {van Kampen}, E. and D. Wijesinghe",

year = "2012",

month = feb,

doi = "10.1111/j.1365-2966.2011.20111.x",

language = "English",

volume = "420",

pages = "1239--1262",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "Oxford University Press ",

number = "2",

}

Loveday, J, Norberg, P, Baldry, IK, Driver, SP, Hopkins, AM, Peacock, JA, Bamford, SP, Liske, J, Bland-Hawthorn, J, Brough, S, Brown, MJI, Cameron, E, Conselice, CJ, Croom, SM, Frenk, CS, Gunawardhana, M, Hill, DT, Jones, DH, Kelvin, LS, Kuijken, K, Nichol, RC, Parkinson, HR, Phillipps, S, Pimbblet, KA, Popescu, CC, Prescott, M, Robotham, ASG, Sharp, RG, Sutherland, WJ, Taylor, EN, Thomas, D, Tuffs, RJ, van Kampen, E & Wijesinghe, D 2012, 'Galaxy and Mass Assembly (GAMA): Ugriz galaxy luminosity functions', Monthly Notices of the Royal Astronomical Society, vol. 420, no. 2, pp. 1239-1262. https://doi.org/10.1111/j.1365-2966.2011.20111.x

TY - JOUR

T1 - Galaxy and Mass Assembly (GAMA)

T2 - Ugriz galaxy luminosity functions

AU - Loveday, J.

AU - Norberg, P.

AU - Baldry, I. K.

AU - Driver, S. P.

AU - Hopkins, A. M.

AU - Peacock, J. A.

AU - Bamford, S. P.

AU - Liske, J.

AU - Bland-Hawthorn, J.

AU - Brough, S.

AU - Brown, M. J.I.

AU - Cameron, E.

AU - Conselice, C. J.

AU - Croom, S. M.

AU - Frenk, C. S.

AU - Gunawardhana, M.

AU - Hill, D. T.

AU - Jones, D. H.

AU - Kelvin, L. S.

AU - Kuijken, K.

AU - Nichol, R. C.

AU - Parkinson, H. R.

AU - Phillipps, S.

AU - Pimbblet, K. A.

AU - Popescu, C. C.

AU - Prescott, M.

AU - Robotham, A. S.G.

AU - Sharp, R. G.

AU - Sutherland, W. J.

AU - Taylor, E. N.

AU - Thomas, D.

AU - Tuffs, R. J.

AU - van Kampen, E.

AU - Wijesinghe, D.

PY - 2012/2

Y1 - 2012/2

N2 - Galaxy and Mass Assembly (GAMA) is a project to study galaxy formation and evolution, combining imaging data from ultraviolet to radio with spectroscopic data from the AAOmega spectrograph on the Anglo-Australian Telescope. Using data from Phase 1 of GAMA, taken over three observing seasons, and correcting for various minor sources of incompleteness, we calculate galaxy luminosity functions (LFs) and their evolution in the ugriz passbands. At low redshift, z < 0.1, we find that blue galaxies, defined according to a magnitude-dependent but non-evolving colour cut, are reasonably well fitted over a range of more than 10 magnitudes by simple Schechter functions in all bands. Red galaxies, and the combined blue plus red sample, require double power-law Schechter functions to fit a dip in their LF faintwards of the characteristic magnitude M* before a steepening faint end. This upturn is at least partly due to dust-reddened disc galaxies. We measure the evolution of the galaxy LF over the redshift range 0.002 < z < 0.5 both by using a parametric fit and by measuring binned LFs in redshift slices. The characteristic luminosity L* is found to increase with redshift in all bands, with red galaxies showing stronger luminosity evolution than blue galaxies. The comoving number density of blue galaxies increases with redshift, while that of red galaxies decreases, consistent with prevailing movement from blue cloud to red sequence. As well as being more numerous at higher redshift, blue galaxies also dominate the overall luminosity density beyond redshifts z≃ 0.2. At lower redshifts, the luminosity density is dominated by red galaxies in the riz bands, and by blue galaxies in u and g.

AB - Galaxy and Mass Assembly (GAMA) is a project to study galaxy formation and evolution, combining imaging data from ultraviolet to radio with spectroscopic data from the AAOmega spectrograph on the Anglo-Australian Telescope. Using data from Phase 1 of GAMA, taken over three observing seasons, and correcting for various minor sources of incompleteness, we calculate galaxy luminosity functions (LFs) and their evolution in the ugriz passbands. At low redshift, z < 0.1, we find that blue galaxies, defined according to a magnitude-dependent but non-evolving colour cut, are reasonably well fitted over a range of more than 10 magnitudes by simple Schechter functions in all bands. Red galaxies, and the combined blue plus red sample, require double power-law Schechter functions to fit a dip in their LF faintwards of the characteristic magnitude M* before a steepening faint end. This upturn is at least partly due to dust-reddened disc galaxies. We measure the evolution of the galaxy LF over the redshift range 0.002 < z < 0.5 both by using a parametric fit and by measuring binned LFs in redshift slices. The characteristic luminosity L* is found to increase with redshift in all bands, with red galaxies showing stronger luminosity evolution than blue galaxies. The comoving number density of blue galaxies increases with redshift, while that of red galaxies decreases, consistent with prevailing movement from blue cloud to red sequence. As well as being more numerous at higher redshift, blue galaxies also dominate the overall luminosity density beyond redshifts z≃ 0.2. At lower redshifts, the luminosity density is dominated by red galaxies in the riz bands, and by blue galaxies in u and g.

KW - Galaxies: Evolution

KW - Galaxies: Luminosity function, mass function

KW - Galaxies: Statistics

UR - http://www.scopus.com/inward/record.url?scp=84856228294&partnerID=8YFLogxK

U2 - 10.1111/j.1365-2966.2011.20111.x

DO - 10.1111/j.1365-2966.2011.20111.x

M3 - Article

SN - 0035-8711

VL - 420

SP - 1239

EP - 1262

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

ER -

Galaxy and Mass Assembly (GAMA): Ugriz galaxy luminosity functions

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