Seven-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological interpretation

The combination of seven-year data from WMAP and improved astrophysical data rigorously tests the standard cosmological model and places new constraints on its basic parameters and extensions. By combining the WMAP data with the latest distance measurements from the baryon acoustic oscillations (BAO...

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Main Authors: Komatsu, Eiichiro, Smith, K. M., Dunkley, J., Bennett, C. L., Gold, B., Hinshaw, G., Jarosik, N., Larson, D., Nolta, M. R., Page, L., Spergel, D. N., Halpern, M., Hill, R. S., Kogut, A., Limon, M., Meyer, S. S., Odegard, N., Tucker, G. S., Weiland, J. L., Wollack, E., Wright, E. L.
Format: Article in Journal/Newspaper
Language:English
Published: 2011
Subjects:
cosmic background radiation
cosmology: observations
dark matter
early
universe
space vehicles
digital sky survey
primordial non-gaussianity
cosmic
background-radiation
relaxed galaxy clusters
equation-of-state
dark-matter halo
isothermal density perturbations
inflationary
universe scenario
gravitational lensing systems
galactic foreground
emission
astronomy & astrophysics
South Pole
Lambda
Wilkinson
Hubble
South pole
Online Access:http://hdl.handle.net/2152/42996
https://doi.org/10.15781/T28P5VC51
https://doi.org/10.1088/0067-0049/192/2/18
id ftunivtexas:oai:repositories.lib.utexas.edu:2152/42996
record_format openpolar
institution Open Polar
collection The University of Texas at Austin: Texas ScholarWorks
op_collection_id ftunivtexas
language English
topic cosmic background radiation
cosmology: observations
dark matter
early
universe
space vehicles
digital sky survey
primordial non-gaussianity
cosmic
background-radiation
relaxed galaxy clusters
equation-of-state
dark-matter halo
isothermal density perturbations
inflationary
universe scenario
gravitational lensing systems
galactic foreground
emission
astronomy & astrophysics
spellingShingle cosmic background radiation
cosmology: observations
dark matter
early
universe
space vehicles
digital sky survey
primordial non-gaussianity
cosmic
background-radiation
relaxed galaxy clusters
equation-of-state
dark-matter halo
isothermal density perturbations
inflationary
universe scenario
gravitational lensing systems
galactic foreground
emission
astronomy & astrophysics
Komatsu, Eiichiro
Smith, K. M.
Dunkley, J.
Bennett, C. L.
Gold, B.
Hinshaw, G.
Jarosik, N.
Larson, D.
Nolta, M. R.
Page, L.
Spergel, D. N.
Halpern, M.
Hill, R. S.
Kogut, A.
Limon, M.
Meyer, S. S.
Odegard, N.
Tucker, G. S.
Weiland, J. L.
Wollack, E.
Wright, E. L.
Seven-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological interpretation
topic_facet cosmic background radiation
cosmology: observations
dark matter
early
universe
space vehicles
digital sky survey
primordial non-gaussianity
cosmic
background-radiation
relaxed galaxy clusters
equation-of-state
dark-matter halo
isothermal density perturbations
inflationary
universe scenario
gravitational lensing systems
galactic foreground
emission
astronomy & astrophysics
description The combination of seven-year data from WMAP and improved astrophysical data rigorously tests the standard cosmological model and places new constraints on its basic parameters and extensions. By combining the WMAP data with the latest distance measurements from the baryon acoustic oscillations (BAO) in the distribution of galaxies and the Hubble constant (H-0) measurement, we determine the parameters of the simplest six-parameter Lambda CDM model. The power-law index of the primordial power spectrum is n(s) = 0.968 +/- 0.012 (68% CL) for this data combination, a measurement that excludes the Harrison-Zel'dovich-Peebles spectrum by 99.5% CL. The other parameters, including those beyond the minimal set, are also consistent with, and improved from, the five-year results. We find no convincing deviations from the minimal model. The seven-year temperature power spectrum gives a better determination of the third acoustic peak, which results in a better determination of the redshift of the matter-radiation equality epoch. Notable examples of improved parameters are the total mass of neutrinos, Sigma m(nu) < 0.58 eV (95% CL), and the effective number of neutrino species, N-eff = 4.34(-0.88)(+0.86) (68% CL), which benefit from better determinations of the third peak and H-0. The limit on a constant dark energy equation of state parameter from WMAP+BAO+H-0, without high-redshift Type Ia supernovae, is w = -1.10 +/- 0.14 (68% CL). We detect the effect of primordial helium on the temperature power spectrum and provide a new test of big bang nucleosynthesis by measuring Y-p = 0.326 +/- 0.075 (68% CL). We detect, and show on the map for the first time, the tangential and radial polarization patterns around hot and cold spots of temperature fluctuations, an important test of physical processes at z = 1090 and the dominance of adiabatic scalar fluctuations. The seven-year polarization data have significantly improved: we now detect the temperature-E-mode polarization cross power spectrum at 21 sigma, compared with 13 sigma from the five-year data. With the seven-year temperature-B-mode cross power spectrum, the limit on a rotation of the polarization plane due to potential parity-violating effects has improved by 38% to Delta a = -1 degrees.1 +/- 1 degrees.4(statistical) +/- 1 degrees.5(systematic) (68% CL). We report significant detections of the Sunyaev-Zel'dovich (SZ) effect at the locations of known clusters of galaxies. The measured SZ signal agrees well with the expected signal from the X-ray data on a cluster-by-cluster basis. However, it is a factor of 0.5-0.7 times the predictions from "universal profile" of Arnaud et al., analytical models, and hydrodynamical simulations. We find, for the first time in the SZ effect, a significant difference between the cooling-flow and non-cooling-flow clusters (or relaxed and non-relaxed clusters), which can explain some of the discrepancy. This lower amplitude is consistent with the lower-than-theoretically expected SZ power spectrum recently measured by the South Pole Telescope Collaboration. NASA NNG05GE76G, NNX07AL75G S01, LTSA03-000-0090, ATPNNG04GK55G, ADP03-0000-092, NNX08AL43G NSF AST-0807649, PHY-0758153 Alfred P. Sloan Research Fellowship Research Councils UK (RCUK) Astronomy
author2 Komatsu, Eiichiro
format Article in Journal/Newspaper
author Komatsu, Eiichiro
Smith, K. M.
Dunkley, J.
Bennett, C. L.
Gold, B.
Hinshaw, G.
Jarosik, N.
Larson, D.
Nolta, M. R.
Page, L.
Spergel, D. N.
Halpern, M.
Hill, R. S.
Kogut, A.
Limon, M.
Meyer, S. S.
Odegard, N.
Tucker, G. S.
Weiland, J. L.
Wollack, E.
Wright, E. L.
author_facet Komatsu, Eiichiro
Smith, K. M.
Dunkley, J.
Bennett, C. L.
Gold, B.
Hinshaw, G.
Jarosik, N.
Larson, D.
Nolta, M. R.
Page, L.
Spergel, D. N.
Halpern, M.
Hill, R. S.
Kogut, A.
Limon, M.
Meyer, S. S.
Odegard, N.
Tucker, G. S.
Weiland, J. L.
Wollack, E.
Wright, E. L.
author_sort Komatsu, Eiichiro
title Seven-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological interpretation
title_short Seven-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological interpretation
title_full Seven-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological interpretation
title_fullStr Seven-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological interpretation
title_full_unstemmed Seven-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological interpretation
title_sort seven-year wilkinson microwave anisotropy probe (wmap) observations: cosmological interpretation
publishDate 2011
url http://hdl.handle.net/2152/42996
https://doi.org/10.15781/T28P5VC51
https://doi.org/10.1088/0067-0049/192/2/18
long_lat ENVELOPE(-62.983,-62.983,-64.300,-64.300)
ENVELOPE(-66.200,-66.200,-66.817,-66.817)
ENVELOPE(158.317,158.317,-80.867,-80.867)
geographic South Pole
Lambda
Wilkinson
Hubble
geographic_facet South Pole
Lambda
Wilkinson
Hubble
genre South pole
genre_facet South pole
op_relation Astrophysical Journal Supplement Series
doi:10.15781/T28P5VC51
Komatsu, E., K. M. Smith, J. Dunkley, C. L. Bennett, and B. Gold. "Sevenyear Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological Interpretation. ApJS 192, 18–+(2011)." arXiv preprint arXiv:1001.4538.
0067-0049
http://hdl.handle.net/2152/42996
doi:10.1088/0067-0049/192/2/18
op_rights Administrative deposit of works to Texas ScholarWorks: This works author(s) is or was a University faculty member, student or staff member; this article is already available through open access or the publisher allows a PDF version of the article to be freely posted online. The library makes the deposit as a matter of fair use (for scholarly, educational, and research purposes), and to preserve the work and further secure public access to the works of the University.
Open
op_doi https://doi.org/10.15781/T28P5VC51
https://doi.org/10.1088/0067-0049/192/2/18
_version_ 1766203016095989760
spelling ftunivtexas:oai:repositories.lib.utexas.edu:2152/42996 2023-05-15T18:23:26+02:00 Seven-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological interpretation Komatsu, Eiichiro Smith, K. M. Dunkley, J. Bennett, C. L. Gold, B. Hinshaw, G. Jarosik, N. Larson, D. Nolta, M. R. Page, L. Spergel, D. N. Halpern, M. Hill, R. S. Kogut, A. Limon, M. Meyer, S. S. Odegard, N. Tucker, G. S. Weiland, J. L. Wollack, E. Wright, E. L. Komatsu, Eiichiro 2011-02 application/pdf http://hdl.handle.net/2152/42996 https://doi.org/10.15781/T28P5VC51 https://doi.org/10.1088/0067-0049/192/2/18 English eng Astrophysical Journal Supplement Series doi:10.15781/T28P5VC51 Komatsu, E., K. M. Smith, J. Dunkley, C. L. Bennett, and B. Gold. "Sevenyear Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological Interpretation. ApJS 192, 18–+(2011)." arXiv preprint arXiv:1001.4538. 0067-0049 http://hdl.handle.net/2152/42996 doi:10.1088/0067-0049/192/2/18 Administrative deposit of works to Texas ScholarWorks: This works author(s) is or was a University faculty member, student or staff member; this article is already available through open access or the publisher allows a PDF version of the article to be freely posted online. The library makes the deposit as a matter of fair use (for scholarly, educational, and research purposes), and to preserve the work and further secure public access to the works of the University. Open cosmic background radiation cosmology: observations dark matter early universe space vehicles digital sky survey primordial non-gaussianity cosmic background-radiation relaxed galaxy clusters equation-of-state dark-matter halo isothermal density perturbations inflationary universe scenario gravitational lensing systems galactic foreground emission astronomy & astrophysics Article 2011 ftunivtexas https://doi.org/10.15781/T28P5VC51 https://doi.org/10.1088/0067-0049/192/2/18 2020-12-23T22:11:50Z The combination of seven-year data from WMAP and improved astrophysical data rigorously tests the standard cosmological model and places new constraints on its basic parameters and extensions. By combining the WMAP data with the latest distance measurements from the baryon acoustic oscillations (BAO) in the distribution of galaxies and the Hubble constant (H-0) measurement, we determine the parameters of the simplest six-parameter Lambda CDM model. The power-law index of the primordial power spectrum is n(s) = 0.968 +/- 0.012 (68% CL) for this data combination, a measurement that excludes the Harrison-Zel'dovich-Peebles spectrum by 99.5% CL. The other parameters, including those beyond the minimal set, are also consistent with, and improved from, the five-year results. We find no convincing deviations from the minimal model. The seven-year temperature power spectrum gives a better determination of the third acoustic peak, which results in a better determination of the redshift of the matter-radiation equality epoch. Notable examples of improved parameters are the total mass of neutrinos, Sigma m(nu) < 0.58 eV (95% CL), and the effective number of neutrino species, N-eff = 4.34(-0.88)(+0.86) (68% CL), which benefit from better determinations of the third peak and H-0. The limit on a constant dark energy equation of state parameter from WMAP+BAO+H-0, without high-redshift Type Ia supernovae, is w = -1.10 +/- 0.14 (68% CL). We detect the effect of primordial helium on the temperature power spectrum and provide a new test of big bang nucleosynthesis by measuring Y-p = 0.326 +/- 0.075 (68% CL). We detect, and show on the map for the first time, the tangential and radial polarization patterns around hot and cold spots of temperature fluctuations, an important test of physical processes at z = 1090 and the dominance of adiabatic scalar fluctuations. The seven-year polarization data have significantly improved: we now detect the temperature-E-mode polarization cross power spectrum at 21 sigma, compared with 13 sigma from the five-year data. With the seven-year temperature-B-mode cross power spectrum, the limit on a rotation of the polarization plane due to potential parity-violating effects has improved by 38% to Delta a = -1 degrees.1 +/- 1 degrees.4(statistical) +/- 1 degrees.5(systematic) (68% CL). We report significant detections of the Sunyaev-Zel'dovich (SZ) effect at the locations of known clusters of galaxies. The measured SZ signal agrees well with the expected signal from the X-ray data on a cluster-by-cluster basis. However, it is a factor of 0.5-0.7 times the predictions from "universal profile" of Arnaud et al., analytical models, and hydrodynamical simulations. We find, for the first time in the SZ effect, a significant difference between the cooling-flow and non-cooling-flow clusters (or relaxed and non-relaxed clusters), which can explain some of the discrepancy. This lower amplitude is consistent with the lower-than-theoretically expected SZ power spectrum recently measured by the South Pole Telescope Collaboration. NASA NNG05GE76G, NNX07AL75G S01, LTSA03-000-0090, ATPNNG04GK55G, ADP03-0000-092, NNX08AL43G NSF AST-0807649, PHY-0758153 Alfred P. Sloan Research Fellowship Research Councils UK (RCUK) Astronomy Article in Journal/Newspaper South pole The University of Texas at Austin: Texas ScholarWorks South Pole Lambda ENVELOPE(-62.983,-62.983,-64.300,-64.300) Wilkinson ENVELOPE(-66.200,-66.200,-66.817,-66.817) Hubble ENVELOPE(158.317,158.317,-80.867,-80.867)

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