Galaxy and mass assembly (GAMA): projected galaxy clustering

D. J. Farrow; Shaun Cole; Peder Norberg; N. Metcalfe; I. Baldry; Joss Bland-Hawthorn; Michael J. I. Brown; A. M. Hopkins; Cedric G. Lacey; J. Liske; Jon Loveday; David P. Palamara; A. S. G. Robotham; Srivatsan Sridhar

doi:10.1093/mnras/stv2075

Galaxy and mass assembly (GAMA): projected galaxy clustering

D. J. Farrow, Shaun Cole, Peder Norberg, N. Metcalfe, I. Baldry, Joss Bland-Hawthorn, Michael J. I. Brown, A. M. Hopkins, Cedric G. Lacey, J. Liske, Jon Loveday, David P. Palamara, A. S. G. Robotham, Srivatsan Sridhar

Kapteyn Astronomical Institute

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Abstract

We measure the projected two-point correlation function of galaxies in the 180 deg2 equatorial regions of the GAMA II survey, for four different redshift slices between z = 0.0 and 0.5. To do this, we further develop the Cole method of producing suitable random catalogues for the calculation of correlation functions. We find that more r-band luminous, more massive and redder galaxies are more clustered. We also find that red galaxies have stronger clustering on scales less than ˜3 h-1 Mpc. We compare to two different versions of the GALFORM galaxy formation model, Lacey et al. (in preparation) and Gonzalez-Perez et al., and find that the models reproduce the trend of stronger clustering for more massive galaxies. However, the models underpredict the clustering of blue galaxies, can incorrectly predict the correlation function on small scales and underpredict the clustering in our sample of galaxies with {˜ } 3 Lr^*. We suggest possible avenues to explore to improve these clustering predictions. The measurements presented in this paper can be used to test other galaxy formation models, and we make the measurements available online to facilitate this.

Original language	English
Pages (from-to)	2120-2145
Journal	Monthly Notices of the Royal Astronomical Society
Volume	454
DOIs	https://doi.org/10.1093/mnras/stv2075
Publication status	Published - Dec-2015

Keywords

galaxies: evolution
galaxies: formation
large-scale structure of Universe

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Farrow, D. J., Cole, S., Norberg, P., Metcalfe, N., Baldry, I., Bland-Hawthorn, J., Brown, M. J. I., Hopkins, A. M., Lacey, C. G., Liske, J., Loveday, J., Palamara, D. P., Robotham, A. S. G., & Sridhar, S. (2015). Galaxy and mass assembly (GAMA): projected galaxy clustering. Monthly Notices of the Royal Astronomical Society, 454, 2120-2145. https://doi.org/10.1093/mnras/stv2075

@article{45d86d001e9c40d6bcd8b7f0a7799b9a,

title = "Galaxy and mass assembly (GAMA): projected galaxy clustering",

abstract = "We measure the projected two-point correlation function of galaxies in the 180 deg2 equatorial regions of the GAMA II survey, for four different redshift slices between z = 0.0 and 0.5. To do this, we further develop the Cole method of producing suitable random catalogues for the calculation of correlation functions. We find that more r-band luminous, more massive and redder galaxies are more clustered. We also find that red galaxies have stronger clustering on scales less than ˜3 h-1 Mpc. We compare to two different versions of the GALFORM galaxy formation model, Lacey et al. (in preparation) and Gonzalez-Perez et al., and find that the models reproduce the trend of stronger clustering for more massive galaxies. However, the models underpredict the clustering of blue galaxies, can incorrectly predict the correlation function on small scales and underpredict the clustering in our sample of galaxies with {˜ } 3 Lr^*. We suggest possible avenues to explore to improve these clustering predictions. The measurements presented in this paper can be used to test other galaxy formation models, and we make the measurements available online to facilitate this.",

keywords = "galaxies: evolution, galaxies: formation, large-scale structure of Universe",

author = "Farrow, {D. J.} and Shaun Cole and Peder Norberg and N. Metcalfe and I. Baldry and Joss Bland-Hawthorn and Brown, {Michael J. I.} and Hopkins, {A. M.} and Lacey, {Cedric G.} and J. Liske and Jon Loveday and Palamara, {David P.} and Robotham, {A. S. G.} and Srivatsan Sridhar",

year = "2015",

month = dec,

doi = "10.1093/mnras/stv2075",

language = "English",

volume = "454",

pages = "2120--2145",

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

issn = "1365-2966",

publisher = "Oxford University Press",

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TY - JOUR

T1 - Galaxy and mass assembly (GAMA): projected galaxy clustering

AU - Farrow, D. J.

AU - Cole, Shaun

AU - Norberg, Peder

AU - Metcalfe, N.

AU - Baldry, I.

AU - Bland-Hawthorn, Joss

AU - Brown, Michael J. I.

AU - Hopkins, A. M.

AU - Lacey, Cedric G.

AU - Liske, J.

AU - Loveday, Jon

AU - Palamara, David P.

AU - Robotham, A. S. G.

AU - Sridhar, Srivatsan

PY - 2015/12

Y1 - 2015/12

N2 - We measure the projected two-point correlation function of galaxies in the 180 deg2 equatorial regions of the GAMA II survey, for four different redshift slices between z = 0.0 and 0.5. To do this, we further develop the Cole method of producing suitable random catalogues for the calculation of correlation functions. We find that more r-band luminous, more massive and redder galaxies are more clustered. We also find that red galaxies have stronger clustering on scales less than ˜3 h-1 Mpc. We compare to two different versions of the GALFORM galaxy formation model, Lacey et al. (in preparation) and Gonzalez-Perez et al., and find that the models reproduce the trend of stronger clustering for more massive galaxies. However, the models underpredict the clustering of blue galaxies, can incorrectly predict the correlation function on small scales and underpredict the clustering in our sample of galaxies with {˜ } 3 Lr^*. We suggest possible avenues to explore to improve these clustering predictions. The measurements presented in this paper can be used to test other galaxy formation models, and we make the measurements available online to facilitate this.

AB - We measure the projected two-point correlation function of galaxies in the 180 deg2 equatorial regions of the GAMA II survey, for four different redshift slices between z = 0.0 and 0.5. To do this, we further develop the Cole method of producing suitable random catalogues for the calculation of correlation functions. We find that more r-band luminous, more massive and redder galaxies are more clustered. We also find that red galaxies have stronger clustering on scales less than ˜3 h-1 Mpc. We compare to two different versions of the GALFORM galaxy formation model, Lacey et al. (in preparation) and Gonzalez-Perez et al., and find that the models reproduce the trend of stronger clustering for more massive galaxies. However, the models underpredict the clustering of blue galaxies, can incorrectly predict the correlation function on small scales and underpredict the clustering in our sample of galaxies with {˜ } 3 Lr^*. We suggest possible avenues to explore to improve these clustering predictions. The measurements presented in this paper can be used to test other galaxy formation models, and we make the measurements available online to facilitate this.

KW - galaxies: evolution

KW - galaxies: formation

KW - large-scale structure of Universe

UR - http://adsabs.harvard.edu/abs/2015MNRAS.454.2120F

U2 - 10.1093/mnras/stv2075

DO - 10.1093/mnras/stv2075

M3 - Article

SN - 1365-2966

VL - 454

SP - 2120

EP - 2145

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

ER -

Galaxy and mass assembly (GAMA): projected galaxy clustering

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