The SDSS-III baryonic oscillation spectroscopic survey: Constraints on the integrated sachs-wolfe effect

Carlos Hernández-Monteagudo; Ashley J. Ross; Antonio Cuesta; Ricardo Génova-Santos; Jun Qing Xia; Francisco Prada; Graziano Rossi; Mark Neyrinck; Matteo Viel; Jose Alberto Rubiño-Martín; Claudia G. Scóccola; Gongbo Zhao; Donald P. Schneider; Joel R. Brownstein; Daniel Thomas; Jonathan V. Brinkmann

doi:10.1093/mnras/stt2312

The SDSS-III baryonic oscillation spectroscopic survey: Constraints on the integrated sachs-wolfe effect

Carlos Hernández-Monteagudo, Ashley J. Ross, Antonio Cuesta, Ricardo Génova-Santos, Jun Qing Xia, Francisco Prada, Graziano Rossi, Mark Neyrinck, Matteo Viel, Jose Alberto Rubiño-Martín, Claudia G. Scóccola, Gongbo Zhao, Donald P. Schneider, Joel R. Brownstein, Daniel Thomas, Jonathan V. Brinkmann

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Abstract

In the context of the study of the integrated Sachs-Wolfe (ISW) effect, we construct a template of the projected density distribution up to redshift z ≃ 0.7 by using the luminous galaxies (LGs) from the Sloan Digital Sky Survey (SDSS) Data Release 8 (DR8).We use a photometric redshift catalogue trained with more than a hundred thousand galaxies from the Baryon Oscillation Spectroscopic Survey (BOSS) in the SDSS DR8 imaging area covering nearly one-quarter of the sky. We consider two different LG samples whose selection matches that of SDSS-III/BOSS: the low-redshift sample (LOWZ, z ε [0.15, 0.5]) and the constant mass sample (CMASS, z ε [0.4, 0.7]). When building the galaxy angular density templates we use the information from star density, survey footprint, seeing conditions, sky emission, dust extinction and airmass to explore the impact of these artefacts on each of the two LG samples. In agreement with previous studies, we find that the CMASS sample is particularly sensitive to Galactic stars, which dominate the contribution to the auto-angular power spectrum below l = 7. Other potential systematics affect mostly the very low multipole range (l ε [2, 7]), but leave fluctuations on smaller scales practically unchanged. The resulting angular power spectra in the multipole range l ε [2, 100] for the LOWZ, CMASS and LOWZ+CMASS samples are compatible with linear ∧ cold dark matter (∧CDM) expectations and constant bias values of b = 1.98 ± 0.11, 2.08 ± 0.14 and 1.88 ± 0.11, respectively, with no traces of non-Gaussianity signatures, i.e. f^local_NL = 59 ± 75 at 95 per cent confidence level for the full LOWZ+CMASS sample in the multipole range l ε [4, 100]. After cross-correlatingWilkinson Microwave Anisotropy Probe 9-year datawith the LOWZ+CMASSLGprojected density field, the ISW signal is detected at the level of 1.62-1.69σ. While this result is in close agreement with theoretical expectations and predictions from realistic Monte Carlo simulations in the concordance ∧CDM model, it cannot rule out by itself an Einstein-de Sitter scenario, and has a moderately low signal compared to previous studies conducted on subsets of this LG sample. We discuss possible reasons for this apparent discrepancy, and point to uncertainties in the galaxy survey systematics as most likely sources of confusion.

Original language	English (US)
Pages (from-to)	1724-1740
Number of pages	17
Journal	Monthly Notices of the Royal Astronomical Society
Volume	438
Issue number	2
DOIs	https://doi.org/10.1093/mnras/stt2312
State	Published - Mar 2014

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.1093/mnras/stt2312

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Hernández-Monteagudo, C., Ross, A. J., Cuesta, A., Génova-Santos, R., Xia, J. Q., Prada, F., Rossi, G., Neyrinck, M., Viel, M., Rubiño-Martín, J. A., Scóccola, C. G., Zhao, G., Schneider, D. P., Brownstein, J. R., Thomas, D., & Brinkmann, J. V. (2014). The SDSS-III baryonic oscillation spectroscopic survey: Constraints on the integrated sachs-wolfe effect. Monthly Notices of the Royal Astronomical Society, 438(2), 1724-1740. https://doi.org/10.1093/mnras/stt2312

@article{47143267993d487f8e3881454f773174,

title = "The SDSS-III baryonic oscillation spectroscopic survey: Constraints on the integrated sachs-wolfe effect",

abstract = "In the context of the study of the integrated Sachs-Wolfe (ISW) effect, we construct a template of the projected density distribution up to redshift z ≃ 0.7 by using the luminous galaxies (LGs) from the Sloan Digital Sky Survey (SDSS) Data Release 8 (DR8).We use a photometric redshift catalogue trained with more than a hundred thousand galaxies from the Baryon Oscillation Spectroscopic Survey (BOSS) in the SDSS DR8 imaging area covering nearly one-quarter of the sky. We consider two different LG samples whose selection matches that of SDSS-III/BOSS: the low-redshift sample (LOWZ, z ε [0.15, 0.5]) and the constant mass sample (CMASS, z ε [0.4, 0.7]). When building the galaxy angular density templates we use the information from star density, survey footprint, seeing conditions, sky emission, dust extinction and airmass to explore the impact of these artefacts on each of the two LG samples. In agreement with previous studies, we find that the CMASS sample is particularly sensitive to Galactic stars, which dominate the contribution to the auto-angular power spectrum below l = 7. Other potential systematics affect mostly the very low multipole range (l ε [2, 7]), but leave fluctuations on smaller scales practically unchanged. The resulting angular power spectra in the multipole range l ε [2, 100] for the LOWZ, CMASS and LOWZ+CMASS samples are compatible with linear ∧ cold dark matter (∧CDM) expectations and constant bias values of b = 1.98 ± 0.11, 2.08 ± 0.14 and 1.88 ± 0.11, respectively, with no traces of non-Gaussianity signatures, i.e. flocalNL = 59 ± 75 at 95 per cent confidence level for the full LOWZ+CMASS sample in the multipole range l ε [4, 100]. After cross-correlatingWilkinson Microwave Anisotropy Probe 9-year datawith the LOWZ+CMASSLGprojected density field, the ISW signal is detected at the level of 1.62-1.69σ. While this result is in close agreement with theoretical expectations and predictions from realistic Monte Carlo simulations in the concordance ∧CDM model, it cannot rule out by itself an Einstein-de Sitter scenario, and has a moderately low signal compared to previous studies conducted on subsets of this LG sample. We discuss possible reasons for this apparent discrepancy, and point to uncertainties in the galaxy survey systematics as most likely sources of confusion.",

author = "Carlos Hern{\'a}ndez-Monteagudo and Ross, {Ashley J.} and Antonio Cuesta and Ricardo G{\'e}nova-Santos and Xia, {Jun Qing} and Francisco Prada and Graziano Rossi and Mark Neyrinck and Matteo Viel and Rubi{\~n}o-Mart{\'i}n, {Jose Alberto} and Sc{\'o}ccola, {Claudia G.} and Gongbo Zhao and Schneider, {Donald P.} and Brownstein, {Joel R.} and Daniel Thomas and Brinkmann, {Jonathan V.}",

year = "2014",

month = mar,

doi = "10.1093/mnras/stt2312",

language = "English (US)",

volume = "438",

pages = "1724--1740",

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

issn = "0035-8711",

publisher = "Oxford University Press",

number = "2",

}

Hernández-Monteagudo, C, Ross, AJ, Cuesta, A, Génova-Santos, R, Xia, JQ, Prada, F, Rossi, G, Neyrinck, M, Viel, M, Rubiño-Martín, JA, Scóccola, CG, Zhao, G, Schneider, DP, Brownstein, JR, Thomas, D & Brinkmann, JV 2014, 'The SDSS-III baryonic oscillation spectroscopic survey: Constraints on the integrated sachs-wolfe effect', Monthly Notices of the Royal Astronomical Society, vol. 438, no. 2, pp. 1724-1740. https://doi.org/10.1093/mnras/stt2312

TY - JOUR

T1 - The SDSS-III baryonic oscillation spectroscopic survey

T2 - Constraints on the integrated sachs-wolfe effect

AU - Hernández-Monteagudo, Carlos

AU - Ross, Ashley J.

AU - Cuesta, Antonio

AU - Génova-Santos, Ricardo

AU - Xia, Jun Qing

AU - Prada, Francisco

AU - Rossi, Graziano

AU - Neyrinck, Mark

AU - Viel, Matteo

AU - Rubiño-Martín, Jose Alberto

AU - Scóccola, Claudia G.

AU - Zhao, Gongbo

AU - Schneider, Donald P.

AU - Brownstein, Joel R.

AU - Thomas, Daniel

AU - Brinkmann, Jonathan V.

PY - 2014/3

Y1 - 2014/3

N2 - In the context of the study of the integrated Sachs-Wolfe (ISW) effect, we construct a template of the projected density distribution up to redshift z ≃ 0.7 by using the luminous galaxies (LGs) from the Sloan Digital Sky Survey (SDSS) Data Release 8 (DR8).We use a photometric redshift catalogue trained with more than a hundred thousand galaxies from the Baryon Oscillation Spectroscopic Survey (BOSS) in the SDSS DR8 imaging area covering nearly one-quarter of the sky. We consider two different LG samples whose selection matches that of SDSS-III/BOSS: the low-redshift sample (LOWZ, z ε [0.15, 0.5]) and the constant mass sample (CMASS, z ε [0.4, 0.7]). When building the galaxy angular density templates we use the information from star density, survey footprint, seeing conditions, sky emission, dust extinction and airmass to explore the impact of these artefacts on each of the two LG samples. In agreement with previous studies, we find that the CMASS sample is particularly sensitive to Galactic stars, which dominate the contribution to the auto-angular power spectrum below l = 7. Other potential systematics affect mostly the very low multipole range (l ε [2, 7]), but leave fluctuations on smaller scales practically unchanged. The resulting angular power spectra in the multipole range l ε [2, 100] for the LOWZ, CMASS and LOWZ+CMASS samples are compatible with linear ∧ cold dark matter (∧CDM) expectations and constant bias values of b = 1.98 ± 0.11, 2.08 ± 0.14 and 1.88 ± 0.11, respectively, with no traces of non-Gaussianity signatures, i.e. flocalNL = 59 ± 75 at 95 per cent confidence level for the full LOWZ+CMASS sample in the multipole range l ε [4, 100]. After cross-correlatingWilkinson Microwave Anisotropy Probe 9-year datawith the LOWZ+CMASSLGprojected density field, the ISW signal is detected at the level of 1.62-1.69σ. While this result is in close agreement with theoretical expectations and predictions from realistic Monte Carlo simulations in the concordance ∧CDM model, it cannot rule out by itself an Einstein-de Sitter scenario, and has a moderately low signal compared to previous studies conducted on subsets of this LG sample. We discuss possible reasons for this apparent discrepancy, and point to uncertainties in the galaxy survey systematics as most likely sources of confusion.

AB - In the context of the study of the integrated Sachs-Wolfe (ISW) effect, we construct a template of the projected density distribution up to redshift z ≃ 0.7 by using the luminous galaxies (LGs) from the Sloan Digital Sky Survey (SDSS) Data Release 8 (DR8).We use a photometric redshift catalogue trained with more than a hundred thousand galaxies from the Baryon Oscillation Spectroscopic Survey (BOSS) in the SDSS DR8 imaging area covering nearly one-quarter of the sky. We consider two different LG samples whose selection matches that of SDSS-III/BOSS: the low-redshift sample (LOWZ, z ε [0.15, 0.5]) and the constant mass sample (CMASS, z ε [0.4, 0.7]). When building the galaxy angular density templates we use the information from star density, survey footprint, seeing conditions, sky emission, dust extinction and airmass to explore the impact of these artefacts on each of the two LG samples. In agreement with previous studies, we find that the CMASS sample is particularly sensitive to Galactic stars, which dominate the contribution to the auto-angular power spectrum below l = 7. Other potential systematics affect mostly the very low multipole range (l ε [2, 7]), but leave fluctuations on smaller scales practically unchanged. The resulting angular power spectra in the multipole range l ε [2, 100] for the LOWZ, CMASS and LOWZ+CMASS samples are compatible with linear ∧ cold dark matter (∧CDM) expectations and constant bias values of b = 1.98 ± 0.11, 2.08 ± 0.14 and 1.88 ± 0.11, respectively, with no traces of non-Gaussianity signatures, i.e. flocalNL = 59 ± 75 at 95 per cent confidence level for the full LOWZ+CMASS sample in the multipole range l ε [4, 100]. After cross-correlatingWilkinson Microwave Anisotropy Probe 9-year datawith the LOWZ+CMASSLGprojected density field, the ISW signal is detected at the level of 1.62-1.69σ. While this result is in close agreement with theoretical expectations and predictions from realistic Monte Carlo simulations in the concordance ∧CDM model, it cannot rule out by itself an Einstein-de Sitter scenario, and has a moderately low signal compared to previous studies conducted on subsets of this LG sample. We discuss possible reasons for this apparent discrepancy, and point to uncertainties in the galaxy survey systematics as most likely sources of confusion.

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The SDSS-III baryonic oscillation spectroscopic survey: Constraints on the integrated sachs-wolfe effect

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