Detecting the Rise and Fall of 21 cm Fluctuations with the Murchison Widefield Array

Lidz, Adam; Zahn, O.; McQuinn, Matthew; Zaldarriaga, Matías; Hernquist, L.

doi:10.1086/587618

Cited by 174 publications

(302 citation statements)

References 57 publications

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“…The triangles indicate 2 σ upper limits from GMRT (Paciga et al 2011) (yellow) at z = 8.6, MWA ) at z = 9.5 (magenta), and the previous PAPER upper limit (P14) at z = 7.7 (green). The magenta curve shows a predicted model 21 cm power spectrum at 50% ionization (Lidz et al 2008). the error bars on the spherically averaged power spectrum P(k), where positive and negative k  measurements are kept separate for diagnostic purposes. In the estimation of the dimensionless power spectrum…”

Section: Power Spectrum Constraintsmentioning

confidence: 99%

PAPER-64 CONSTRAINTS ON REIONIZATION: THE 21 cm POWER SPECTRUM ATz= 8.4

Ali

Parsons

Zheng

et al. 2015

ApJ

262

224

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In this paper, we report new limits on 21 cm emission from cosmic reionization based on a 135 day observing campaign with a 64-element deployment of the Donald C. Backer Precision Array for Probing the Epoch of Reionization in South Africa. This work extends the work presented in Parsons et al. with more collecting area, a longer observing period, improved redundancy-based calibration, improved fringe-rate filtering, and updated power-spectral analysis using optimal quadratic estimators. The result is a new 2σ upper limit on Δ 2 (k) of (22.4 mK) 2 in the range k h 0.15 0.5 Mpc 1 < < -at z = 8.4. This represents a three-fold improvement over the previous best upper limit. As we discuss in more depth in a forthcoming paper, this upper limit supports and extends previous evidence against extremely cold reionization scenarios. We conclude with a discussion of implications for future 21 cm reionization experiments, including the newly funded Hydrogen Epoch of Reionization Array.

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Section: Power Spectrum Constraintsmentioning

confidence: 99%

PAPER-64 CONSTRAINTS ON REIONIZATION: THE 21 cm POWER SPECTRUM ATz= 8.4

Ali

Parsons

Zheng

et al. 2015

ApJ

262

224

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“…Given a detailed model and small error bars this could be measured directly from the shape of the power spectrum. More generally, if measured over only a small range of wave-numbers, the redshift dependence of x α could be extracted by looking at the redshift evolution of the amplitude and slope in a manner analogous to that suggested by Lidz et al (2008) for reionization. Note that, although during Lyα domination different models have similar power spectra for the same x α , its evolution with redshift could be used to distinguish these models.…”

Section: Power Spectrum Constraintsmentioning

confidence: 99%

Probing the first galaxies with the Square Kilometer Array

Santos

Silva

Pritchard

et al. 2011

A&A

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Observations of anisotropies in the brightness temperature of the 21 cm line of neutral hydrogen from the period before reionization would shed light on the dawn of the first stars and galaxies. In this paper, we use large-scale semi-numerical simulations to analyse the imprint on the 21 cm signal of spatial fluctuations in the Lyman-α flux arising from the clustering of the first galaxies. We show that an experiment such as the Square Kilometer Array (SKA) can probe this signal at the onset of reionization, giving us important information about the UV emission spectra of the first stars and characterizing their host galaxies. SKA-pathfinders with ∼10% of the full collecting area should be capable of making a statistical detection of the 21 cm power spectrum at redshifts z < ∼ 20 (corresponding to frequencies ν > ∼ 67 MHz). We then show that the SKA should be able to measure the three dimensional power spectrum as a function of the angle with the line of sight and discuss the use of the redshift space distortions as a way to separate out the different components of the 21 cm power spectrum. We demonstrate that, at least on large scales where the Lyα fluctuations are linear, they can be used as a model independent way to extract the power spectra due to these Lyα fluctuations.

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“…With this amplitude, and ignoring the issue of foreground cleaning 1 LOw Frequency ARray, http://www.lofar.org 2 Murchison Widefield Array, http://mwatelescope.org/ 3 Giant Metrewave Radio Telescope, http://www.gmrt.ncra. tifr.res.in 4 21 Centimeter Array, http://21cma.bao.ac.cn/ 5 Square Kilometre Array, http://www.skatelescope.org/ residuals, statistical quantities such as the three-dimensional power spectrum should be measurable with LOFAR or MWA with a few 100 h integration (Morales & Hewitt 2004;Lidz et al 2008). In absorption however, the amplitude of the fluctuations may exceed 100 mK (Gnedin 2004;Santos et al 2008;Baek et al 2009), the exact level depending on the relative contribution of the X-ray and UV sources to the process of cosmic reionization.…”

Section: Introductionmentioning

confidence: 99%

Reionization by UV or X-ray sources

Baek

Semelin

Matteo

et al. 2010

A&A

140

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We present simulations of the 21-cm signal during the epoch of reionization. We focus on properly modeling the absorption regime in the presence of inhomogeneous Wouthuysen-Field effect and X-ray heating. We ran radiative transfer simulations for three bands in the source spectrum (Lyman, UV, and X-ray) to fully account for these processes. We find that the brightness temperature fluctuation of the 21 cm signal has an amplitude greater than 100 mK during the early reionization, up to 10 times greater than the typical amplitude of a few 10 mK obtained during the later emission phase. More importantly, we find that even a rather high contribution from QSO-like sources only damps the absorption regime without erasing it. Heating the IGM with X-ray takes time. Our results show that observations of the early reionization will probably benefit from a higher signal-to-noise value than during later stages. After analyzing the statistical properties of the signal (power spectrum and PDF) we find three diagnostics to constrain the level of X-ray, hence the nature of the first sources.

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Detecting the Rise and Fall of 21 cm Fluctuations with the Murchison Widefield Array

Cited by 174 publications

References 57 publications

PAPER-64 CONSTRAINTS ON REIONIZATION: THE 21 cm POWER SPECTRUM ATz= 8.4

PAPER-64 CONSTRAINTS ON REIONIZATION: THE 21 cm POWER SPECTRUM ATz= 8.4

Probing the first galaxies with the Square Kilometer Array

Reionization by UV or X-ray sources

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