The WiggleZ dark energy survey: Probing the epoch of radiation domination using large-scale structure

Gregory B. Poole; Chris Blake; David Parkinson; Sarah Brough; Matthew Colless; Carlos Contreras; Warrick Couch; Darren J. Croton; Scott Croom; Tamara Davis; Michael J. Drinkwater; Karl Forster; David Gilbank; Mike Gladders; Karl Glazebrook; Ben Jelliffe; Russell J. Jurek; I. Hui Li; Barry Madore; D. Christopher Martin; Kevin Pimbblet; Michael Pracy; Rob Sharp; Emily Wisnioski; David Woods; Ted K. Wyder; H. K.C. Yee

doi:10.1093/mnras/sts431

The WiggleZ dark energy survey: Probing the epoch of radiation domination using large-scale structure

Gregory B. Poole^*, Chris Blake, David Parkinson, Sarah Brough, Matthew Colless, Carlos Contreras, Warrick Couch, Darren J. Croton, Scott Croom, Tamara Davis, Michael J. Drinkwater, Karl Forster, David Gilbank, Mike Gladders, Karl Glazebrook, Ben Jelliffe, Russell J. Jurek, I. Hui Li, Barry Madore, D. Christopher MartinKevin Pimbblet, Michael Pracy, Rob Sharp, Emily Wisnioski, David Woods, Ted K. Wyder, H. K.C. Yee

^*Corresponding author for this work

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

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Abstract

We place the most robust constraint to date on the scale of the turnover in the cosmological matter power spectrum using data from the WiggleZ Dark Energy Survey. We find this feature to lie at a scale of k₀ = 0.0160^+0.0035 _-0.0041 (h Mpc^-1) (68 per cent confidence) for an effective redshift of z_eff = 0.62 and obtain from this the first ever turnover-derived distance and cosmology constraints: a measure of the cosmic distance-redshift relation in units of the horizon scale at the redshift of radiation-matter equality (r_H) ofDV(z_eff = 0.62)/r_H = 18.3^+6.3 _-3.3 and, assuming a prior on the number of extra relativistic degrees of freedom N_eff =3, constraints on the cosmological matter density parameter Ω_M h² = 0.136^+0.026 _-0.052 and on the redshift of matter-radiation equality z_eq = 3274⁺⁶³¹ _-1260.We stress that these results are obtained within the theoretical framework of Gaussian primordial fluctuations and linear large-scale bias. With this caveat, all results are in excellent agreement with the predictions of standard ΛCDM models. Our constraints on the logarithmic slope of the power spectrum on scales larger than the turnover are bounded in the lower limit with values only as low as -1 allowed, with the prediction of P(k) ∝ k from standard ΛCDM models easily accommodated by our results. Finally, we generate forecasts to estimate the achievable precision of future surveys at constraining k₀, ω;_M h², z_eq and N_eff.We find that the Baryon Oscillation Spectroscopic Survey should substantially improve upon the WiggleZ turnover constraint, reaching a precision on k0 of ±9 per cent (68 per cent confidence), translating to precisions on ω_M h² and z_eq of±10 per cent (assuming a prior N_eff =3) and onNeff of ⁺⁷⁸ _-56 per cent (assuming a priorω_M h² = 0.135). This represents sufficient precision to sharpen the constraints on N_eff from WMAP, particularly in its upper limit. For Euclid, we find corresponding attainable precisions on (k₀, ω_M h², N_eff) of (3, 4, ⁺¹⁷ _-21) per cent. This represents a precision approaching our forecasts for the Planck Surveyor.

Original language	English
Pages (from-to)	1902-1912
Number of pages	11
Journal	Monthly Notices of the Royal Astronomical Society
Volume	429
Issue number	3
DOIs	https://doi.org/10.1093/mnras/sts431
Publication status	Published - 1 Mar 2013

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Poole, G. B., Blake, C., Parkinson, D., Brough, S., Colless, M., Contreras, C., Couch, W., Croton, D. J., Croom, S., Davis, T., Drinkwater, M. J., Forster, K., Gilbank, D., Gladders, M., Glazebrook, K., Jelliffe, B., Jurek, R. J., Li, I. H., Madore, B., ... Yee, H. K. C. (2013). The WiggleZ dark energy survey: Probing the epoch of radiation domination using large-scale structure. Monthly Notices of the Royal Astronomical Society, 429(3), 1902-1912. https://doi.org/10.1093/mnras/sts431

@article{265c333252114f7ab9de0b7f49f18a63,

title = "The WiggleZ dark energy survey: Probing the epoch of radiation domination using large-scale structure",

abstract = "We place the most robust constraint to date on the scale of the turnover in the cosmological matter power spectrum using data from the WiggleZ Dark Energy Survey. We find this feature to lie at a scale of k0 = 0.0160+0.0035 -0.0041 (h Mpc-1) (68 per cent confidence) for an effective redshift of zeff = 0.62 and obtain from this the first ever turnover-derived distance and cosmology constraints: a measure of the cosmic distance-redshift relation in units of the horizon scale at the redshift of radiation-matter equality (rH) ofDV(zeff = 0.62)/rH = 18.3+6.3 -3.3 and, assuming a prior on the number of extra relativistic degrees of freedom Neff =3, constraints on the cosmological matter density parameter ΩM h2 = 0.136+0.026 -0.052 and on the redshift of matter-radiation equality zeq = 3274+631 -1260.We stress that these results are obtained within the theoretical framework of Gaussian primordial fluctuations and linear large-scale bias. With this caveat, all results are in excellent agreement with the predictions of standard ΛCDM models. Our constraints on the logarithmic slope of the power spectrum on scales larger than the turnover are bounded in the lower limit with values only as low as -1 allowed, with the prediction of P(k) ∝ k from standard ΛCDM models easily accommodated by our results. Finally, we generate forecasts to estimate the achievable precision of future surveys at constraining k0, ω;M h2, zeq and Neff.We find that the Baryon Oscillation Spectroscopic Survey should substantially improve upon the WiggleZ turnover constraint, reaching a precision on k0 of ±9 per cent (68 per cent confidence), translating to precisions on ωM h2 and zeq of±10 per cent (assuming a prior Neff =3) and onNeff of +78 -56 per cent (assuming a priorωM h2 = 0.135). This represents sufficient precision to sharpen the constraints on Neff from WMAP, particularly in its upper limit. For Euclid, we find corresponding attainable precisions on (k0, ωM h2, Neff) of (3, 4, +17 -21) per cent. This represents a precision approaching our forecasts for the Planck Surveyor.",

keywords = "Cosmological parameters, Large, Scale structure of universe, Surveys",

author = "Poole, {Gregory B.} and Chris Blake and David Parkinson and Sarah Brough and Matthew Colless and Carlos Contreras and Warrick Couch and Croton, {Darren J.} and Scott Croom and Tamara Davis and Drinkwater, {Michael J.} and Karl Forster and David Gilbank and Mike Gladders and Karl Glazebrook and Ben Jelliffe and Jurek, {Russell J.} and Li, {I. Hui} and Barry Madore and Martin, {D. Christopher} and Kevin Pimbblet and Michael Pracy and Rob Sharp and Emily Wisnioski and David Woods and Wyder, {Ted K.} and Yee, {H. K.C.}",

year = "2013",

month = mar,

day = "1",

doi = "10.1093/mnras/sts431",

language = "English",

volume = "429",

pages = "1902--1912",

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

issn = "0035-8711",

publisher = "Oxford University Press ",

number = "3",

}

Poole, GB, Blake, C, Parkinson, D, Brough, S, Colless, M, Contreras, C, Couch, W, Croton, DJ, Croom, S, Davis, T, Drinkwater, MJ, Forster, K, Gilbank, D, Gladders, M, Glazebrook, K, Jelliffe, B, Jurek, RJ, Li, IH, Madore, B, Martin, DC, Pimbblet, K, Pracy, M, Sharp, R , Wisnioski, E, Woods, D, Wyder, TK & Yee, HKC 2013, 'The WiggleZ dark energy survey: Probing the epoch of radiation domination using large-scale structure', Monthly Notices of the Royal Astronomical Society, vol. 429, no. 3, pp. 1902-1912. https://doi.org/10.1093/mnras/sts431

TY - JOUR

T1 - The WiggleZ dark energy survey

T2 - Probing the epoch of radiation domination using large-scale structure

AU - Poole, Gregory B.

AU - Blake, Chris

AU - Parkinson, David

AU - Brough, Sarah

AU - Colless, Matthew

AU - Contreras, Carlos

AU - Couch, Warrick

AU - Croton, Darren J.

AU - Croom, Scott

AU - Davis, Tamara

AU - Drinkwater, Michael J.

AU - Forster, Karl

AU - Gilbank, David

AU - Gladders, Mike

AU - Glazebrook, Karl

AU - Jelliffe, Ben

AU - Jurek, Russell J.

AU - Li, I. Hui

AU - Madore, Barry

AU - Martin, D. Christopher

AU - Pimbblet, Kevin

AU - Pracy, Michael

AU - Sharp, Rob

AU - Wisnioski, Emily

AU - Woods, David

AU - Wyder, Ted K.

AU - Yee, H. K.C.

PY - 2013/3/1

Y1 - 2013/3/1

N2 - We place the most robust constraint to date on the scale of the turnover in the cosmological matter power spectrum using data from the WiggleZ Dark Energy Survey. We find this feature to lie at a scale of k0 = 0.0160+0.0035 -0.0041 (h Mpc-1) (68 per cent confidence) for an effective redshift of zeff = 0.62 and obtain from this the first ever turnover-derived distance and cosmology constraints: a measure of the cosmic distance-redshift relation in units of the horizon scale at the redshift of radiation-matter equality (rH) ofDV(zeff = 0.62)/rH = 18.3+6.3 -3.3 and, assuming a prior on the number of extra relativistic degrees of freedom Neff =3, constraints on the cosmological matter density parameter ΩM h2 = 0.136+0.026 -0.052 and on the redshift of matter-radiation equality zeq = 3274+631 -1260.We stress that these results are obtained within the theoretical framework of Gaussian primordial fluctuations and linear large-scale bias. With this caveat, all results are in excellent agreement with the predictions of standard ΛCDM models. Our constraints on the logarithmic slope of the power spectrum on scales larger than the turnover are bounded in the lower limit with values only as low as -1 allowed, with the prediction of P(k) ∝ k from standard ΛCDM models easily accommodated by our results. Finally, we generate forecasts to estimate the achievable precision of future surveys at constraining k0, ω;M h2, zeq and Neff.We find that the Baryon Oscillation Spectroscopic Survey should substantially improve upon the WiggleZ turnover constraint, reaching a precision on k0 of ±9 per cent (68 per cent confidence), translating to precisions on ωM h2 and zeq of±10 per cent (assuming a prior Neff =3) and onNeff of +78 -56 per cent (assuming a priorωM h2 = 0.135). This represents sufficient precision to sharpen the constraints on Neff from WMAP, particularly in its upper limit. For Euclid, we find corresponding attainable precisions on (k0, ωM h2, Neff) of (3, 4, +17 -21) per cent. This represents a precision approaching our forecasts for the Planck Surveyor.

AB - We place the most robust constraint to date on the scale of the turnover in the cosmological matter power spectrum using data from the WiggleZ Dark Energy Survey. We find this feature to lie at a scale of k0 = 0.0160+0.0035 -0.0041 (h Mpc-1) (68 per cent confidence) for an effective redshift of zeff = 0.62 and obtain from this the first ever turnover-derived distance and cosmology constraints: a measure of the cosmic distance-redshift relation in units of the horizon scale at the redshift of radiation-matter equality (rH) ofDV(zeff = 0.62)/rH = 18.3+6.3 -3.3 and, assuming a prior on the number of extra relativistic degrees of freedom Neff =3, constraints on the cosmological matter density parameter ΩM h2 = 0.136+0.026 -0.052 and on the redshift of matter-radiation equality zeq = 3274+631 -1260.We stress that these results are obtained within the theoretical framework of Gaussian primordial fluctuations and linear large-scale bias. With this caveat, all results are in excellent agreement with the predictions of standard ΛCDM models. Our constraints on the logarithmic slope of the power spectrum on scales larger than the turnover are bounded in the lower limit with values only as low as -1 allowed, with the prediction of P(k) ∝ k from standard ΛCDM models easily accommodated by our results. Finally, we generate forecasts to estimate the achievable precision of future surveys at constraining k0, ω;M h2, zeq and Neff.We find that the Baryon Oscillation Spectroscopic Survey should substantially improve upon the WiggleZ turnover constraint, reaching a precision on k0 of ±9 per cent (68 per cent confidence), translating to precisions on ωM h2 and zeq of±10 per cent (assuming a prior Neff =3) and onNeff of +78 -56 per cent (assuming a priorωM h2 = 0.135). This represents sufficient precision to sharpen the constraints on Neff from WMAP, particularly in its upper limit. For Euclid, we find corresponding attainable precisions on (k0, ωM h2, Neff) of (3, 4, +17 -21) per cent. This represents a precision approaching our forecasts for the Planck Surveyor.

KW - Cosmological parameters

KW - Large

KW - Scale structure of universe

KW - Surveys

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DO - 10.1093/mnras/sts431

M3 - Article

SN - 0035-8711

VL - 429

SP - 1902

EP - 1912

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 3

ER -

The WiggleZ dark energy survey: Probing the epoch of radiation domination using large-scale structure

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