The Lyα forest power spectrum from the sloan digital sky survey

Patrick McDonald; Uroš Seljak; Scott Burles; David H. Schlegel; David H. Weinberg; Renyue Cen; David Shih; Joop Schaye; Donald P. Schneider; Neta A. Bahcall; John W. Briggs; J. Brinkmann; Robert J. Brunner; Masataka Fukugita; James E. Gunn; Željko Ivezić; Stephen Kent; Robert H. Lupton; Daniel E. Vanden Berk

doi:10.1086/444361

The Lyα forest power spectrum from the sloan digital sky survey

Patrick McDonald
, Uroš Seljak
, Scott Burles
, David H. Schlegel
, David H. Weinberg
, Renyue Cen
, David Shih
, Joop Schaye
, Donald P. Schneider
, Neta A. Bahcall
, John W. Briggs
, J. Brinkmann
, Robert J. Brunner
, Masataka Fukugita
, James E. Gunn
, Željko Ivezić
, Stephen Kent
, Robert H. Lupton
, Daniel E. Vanden Berk

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

Abstract

We measure the power spectrum, P _F(k, z), of the transmitted flux in the Lya forest using 3035 high-redshift quasar spectra from the Sloan Digital Sky Survey. This sample is almost 2 orders of magnitude larger than any previously available data set, yielding statistical errors of ∼0.6% and ∼0.005 on, respectively, the overall amplitude and logarithmic slope of P _F(k, z). This unprecedented statistical power requires a correspondingly careful analysis of the data and of possible systematic contaminations in it. For this purpose we reanalyze the raw spectra to make use of information not preserved by the standard pipeline. We investigate the details of the noise in the data, resolution of the spectrograph, sky subtraction, quasar continuum, and metal absorption. We find that background sources such as metals contribute significantly to the total power and have to be subtracted properly. We also find clear evidence for Si in correlations with the Lya forest and suggest a simple model to account for this contribution to the power. Our tests indicate that any residual systematics in the analysis are unlikely to affect the inference of cosmological parameters from P _F(k, z). These results should provide an essential ingredient for all future attempts to constrain modeling of structure formation, cosmological parameters, and theories for the origin of primordial fluctuations.

Original language	English (US)
Pages (from-to)	80-109
Number of pages	30
Journal	Astrophysical Journal, Supplement Series
Volume	163
Issue number	1
DOIs	https://doi.org/10.1086/444361
State	Published - Mar 2006

Keywords

Cosmology: observations
Intergalactic medium
Large-scale structure of universe
Methods: data analysis
Quasars: absorption lines

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

Online availability

10.1086/444361

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McDonald, P., Seljak, U., Burles, S., Schlegel, D. H., Weinberg, D. H., Cen, R., Shih, D., Schaye, J., Schneider, D. P., Bahcall, N. A., Briggs, J. W., Brinkmann, J., Brunner, R. J., Fukugita, M., Gunn, J. E., Ivezić, Ž., Kent, S., Lupton, R. H., & Vanden Berk, D. E. (2006). The Lyα forest power spectrum from the sloan digital sky survey. Astrophysical Journal, Supplement Series, 163(1), 80-109. https://doi.org/10.1086/444361

McDonald, P, Seljak, U, Burles, S, Schlegel, DH, Weinberg, DH, Cen, R, Shih, D, Schaye, J, Schneider, DP, Bahcall, NA, Briggs, JW, Brinkmann, J, Brunner, RJ, Fukugita, M, Gunn, JE, Ivezić, Ž, Kent, S, Lupton, RH & Vanden Berk, DE 2006, 'The Lyα forest power spectrum from the sloan digital sky survey', Astrophysical Journal, Supplement Series, vol. 163, no. 1, pp. 80-109. https://doi.org/10.1086/444361

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abstract = "We measure the power spectrum, P F(k, z), of the transmitted flux in the Lya forest using 3035 high-redshift quasar spectra from the Sloan Digital Sky Survey. This sample is almost 2 orders of magnitude larger than any previously available data set, yielding statistical errors of ∼0.6\% and ∼0.005 on, respectively, the overall amplitude and logarithmic slope of P F(k, z). This unprecedented statistical power requires a correspondingly careful analysis of the data and of possible systematic contaminations in it. For this purpose we reanalyze the raw spectra to make use of information not preserved by the standard pipeline. We investigate the details of the noise in the data, resolution of the spectrograph, sky subtraction, quasar continuum, and metal absorption. We find that background sources such as metals contribute significantly to the total power and have to be subtracted properly. We also find clear evidence for Si in correlations with the Lya forest and suggest a simple model to account for this contribution to the power. Our tests indicate that any residual systematics in the analysis are unlikely to affect the inference of cosmological parameters from P F(k, z). These results should provide an essential ingredient for all future attempts to constrain modeling of structure formation, cosmological parameters, and theories for the origin of primordial fluctuations.",

keywords = "Cosmology: observations, Intergalactic medium, Large-scale structure of universe, Methods: data analysis, Quasars: absorption lines",

author = "Patrick McDonald and Uro{\v s} Seljak and Scott Burles and Schlegel, \{David H.\} and Weinberg, \{David H.\} and Renyue Cen and David Shih and Joop Schaye and Schneider, \{Donald P.\} and Bahcall, \{Neta A.\} and Briggs, \{John W.\} and J. Brinkmann and Brunner, \{Robert J.\} and Masataka Fukugita and Gunn, \{James E.\} and {\v Z}eljko Ivezi{\'c} and Stephen Kent and Lupton, \{Robert H.\} and \{Vanden Berk\}, \{Daniel E.\}",

year = "2006",

month = mar,

doi = "10.1086/444361",

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T1 - The Lyα forest power spectrum from the sloan digital sky survey

AU - McDonald, Patrick

AU - Seljak, Uroš

AU - Burles, Scott

AU - Schlegel, David H.

AU - Weinberg, David H.

AU - Cen, Renyue

AU - Shih, David

AU - Schaye, Joop

AU - Schneider, Donald P.

AU - Bahcall, Neta A.

AU - Briggs, John W.

AU - Brinkmann, J.

AU - Brunner, Robert J.

AU - Fukugita, Masataka

AU - Gunn, James E.

AU - Ivezić, Željko

AU - Kent, Stephen

AU - Lupton, Robert H.

AU - Vanden Berk, Daniel E.

PY - 2006/3

Y1 - 2006/3

N2 - We measure the power spectrum, P F(k, z), of the transmitted flux in the Lya forest using 3035 high-redshift quasar spectra from the Sloan Digital Sky Survey. This sample is almost 2 orders of magnitude larger than any previously available data set, yielding statistical errors of ∼0.6% and ∼0.005 on, respectively, the overall amplitude and logarithmic slope of P F(k, z). This unprecedented statistical power requires a correspondingly careful analysis of the data and of possible systematic contaminations in it. For this purpose we reanalyze the raw spectra to make use of information not preserved by the standard pipeline. We investigate the details of the noise in the data, resolution of the spectrograph, sky subtraction, quasar continuum, and metal absorption. We find that background sources such as metals contribute significantly to the total power and have to be subtracted properly. We also find clear evidence for Si in correlations with the Lya forest and suggest a simple model to account for this contribution to the power. Our tests indicate that any residual systematics in the analysis are unlikely to affect the inference of cosmological parameters from P F(k, z). These results should provide an essential ingredient for all future attempts to constrain modeling of structure formation, cosmological parameters, and theories for the origin of primordial fluctuations.

AB - We measure the power spectrum, P F(k, z), of the transmitted flux in the Lya forest using 3035 high-redshift quasar spectra from the Sloan Digital Sky Survey. This sample is almost 2 orders of magnitude larger than any previously available data set, yielding statistical errors of ∼0.6% and ∼0.005 on, respectively, the overall amplitude and logarithmic slope of P F(k, z). This unprecedented statistical power requires a correspondingly careful analysis of the data and of possible systematic contaminations in it. For this purpose we reanalyze the raw spectra to make use of information not preserved by the standard pipeline. We investigate the details of the noise in the data, resolution of the spectrograph, sky subtraction, quasar continuum, and metal absorption. We find that background sources such as metals contribute significantly to the total power and have to be subtracted properly. We also find clear evidence for Si in correlations with the Lya forest and suggest a simple model to account for this contribution to the power. Our tests indicate that any residual systematics in the analysis are unlikely to affect the inference of cosmological parameters from P F(k, z). These results should provide an essential ingredient for all future attempts to constrain modeling of structure formation, cosmological parameters, and theories for the origin of primordial fluctuations.

KW - Cosmology: observations

KW - Intergalactic medium

KW - Large-scale structure of universe

KW - Methods: data analysis

KW - Quasars: absorption lines

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SN - 0067-0049

VL - 163

SP - 80

EP - 109

JO - Astrophysical Journal, Supplement Series

JF - Astrophysical Journal, Supplement Series

IS - 1

ER -

The Lyα forest power spectrum from the sloan digital sky survey

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