MITEoR: a scalable interferometer for precision 21 cm cosmology

Zheng, Haoxuan; Tegmark, Max; Buza, V.; Dillon, Joshua S.; Gharibyan, Hrant; Hickish, J.; Kunz, E.; Liu, A.; Losh, Jonathan L; Lutomirski, Andrew; Morrison, Scott; Narayanan, Sruthi A.; Perko, Ashley; Rosner, Devon; Sánchez, N.; Schutz, Katelin; Tribiano, S.; Valdez, M.; Yang, Haizhao; Adami, Kristian Zarb; Zelko, Ioana A.; Zheng, K.; Armstrong, R. P.; Bradley, Richard F.; Dexter, Matthew R.; Ewall‐Wice, Aaron; Magro, Alessio; Matejek, Michael; Morgan, E.; Neben, Abraham R.; Pan, Qinxuan; Penna, Robert F.; Peterson, Courtney M.; Su, Meng; Villaseñor, J.; Williams, Christopher; Zhu, Yan

doi:10.1093/mnras/stu1773

Cited by 87 publications

(175 citation statements)

References 39 publications

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“…The grid-based configuration of PAPER antennas allows a large number of antenna calibration parameters to be solved for on the basis of redundancy (P12a; P14; Zheng et al 2014). Multiple baselines of the same length and orientation measure the same sky signal.…”

Section: Relative Calibrationmentioning

confidence: 99%

“…In practice, redundant calibration often takes on two flavors: log calibration (LOGCAL) and linear calibration (LINCAL) (Liu et al 2010;Zheng et al 2014). LOGCAL uses logarithms applied to visibilities,…”

Section: Relative Calibrationmentioning

confidence: 99%

“…Using initial estimates taken from LOGCAL, LINCAL constructs an unbiased estimator. Redundant calibration was performed using OMNICAL 17 an open-source redundant calibration package that is relatively instrument agnostic (Zheng et al 2014). This package implements both LOGCAL and LINCAL, solving for a complex gain solution per antenna, frequency, and integration.…”

Section: Relative Calibrationmentioning

confidence: 99%

“…These configurations are poorly suited for synthesis imaging but deliver a substantial sensitivity boost for power-spectral measurements that are not yet limited by cosmic variance (Parsons et al 2012a, hereafter P12a). Moreover, they are particularly suited for redundancy-based calibration (Wieringa 1992;Liu et al 2010;Zheng et al 2014), on which PAPER now relies to solve for the majority of the internal instrumental degrees of freedom (dof). The efficacy of this approach was demonstrated with data from a 32-antenna deployment of PAPER, which achieved an upper limit on the 21 cm power spectrum Δ 2 (k) ⩽ (41 mK) 2 at k h 0.27 Mpc 1 = - (Parsons et al 2014, hereafter P14).…”

Section: Introductionmentioning

confidence: 99%

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

Ali

Parsons

Zheng

et al. 2015

ApJ

259

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: Relative Calibrationmentioning

confidence: 99%

Section: Relative Calibrationmentioning

confidence: 99%

Section: Relative Calibrationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

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

Ali

Parsons

Zheng

et al. 2015

ApJ

259

224

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“…These differences have led to the design, construction, and usage of new interferometers that only have moderate angular resolution, but are comprised of a large number of receiving elements with wide fields of view operating over a wide bandwidth. Examples of new interferometers that broadly fit some or all of this description include the Donald C. Backer Precision Array for Probing the Epoch of Reionization (PAPER; Parsons et al 2010), the Murchison Widefield Array (MWA; Tingay et al 2013;Bowman et al 2013), the LOw Frequency ARray (LOFAR; van Haarlem et al 2013), the Canadian Hydrogen Intensity Mapping Experiment (CHIME; Bandura et al 2014), the MIT Epoch of Reionization experiment (MITEoR; Zheng et al 2014), the Large Aperture Experiment to Detect the Dark Ages (LEDA; Greenhill & Bernardi 2012), and the Hydrogen Epoch of Reionization Array (HERA; Pober et al 2014). Further deviating from conventional array designs, the PAPER, MITEoR, CHIME, HERA projects have also maximized sensitivity by choosing to place their antenna elements in regular, redundant grids (Parsons 1 Astronomy Dept., U. California, Berkeley, CA 2 Radio Astronomy Lab., U. California, Berkeley, CA 3 Berkeley Center for Cosmological Physics, Berkeley, CA et al 2012a).…”

Section: Introductionmentioning

confidence: 99%

Optimized Beam Sculpting With Generalized Fringe-Rate Filters

Parsons

Liu

Ali

et al. 2016

ApJ

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We generalize the technique of fringe-rate filtering, whereby visibilities measured by a radio interferometer are re-weighted according to their temporal variation. As the Earth rotates, radio sources traverse through an interferometer's fringe pattern at rates that depend on their position on the sky. Capitalizing on this geometric interpretation of fringe rates, we employ time-domain convolution kernels to enact fringe-rate filters that sculpt the effective primary beam of antennas in an interferometer. As we show, beam sculpting through fringe-rate filtering can be used to optimize measurements for a variety of applications, including mapmaking, minimizing polarization leakage, suppressing instrumental systematics, and enhancing the sensitivity of power-spectrum measurements. We show that fringe-rate filtering arises naturally in minimum variance treatments of many of these problems, enabling optimal visibility-based approaches to analyses of interferometric data that avoid systematics potentially introduced by traditional approaches such as imaging. Our techniques have recently been demonstrated in Ali et al. (2015), where new upper limits were placed on the 21 cm power spectrum from reionization, showcasing the ability of fringe-rate filtering to successfully boost sensitivity and reduce the impact of systematics in deep observations.

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Measuring phased‐array antenna beampatterns with high dynamic range for the Murchison Widefield Array using 137 MHz ORBCOMM satellites

et al. 2015

Self Cite

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Detection of the fluctuations in a 21 cm line emission from neutral hydrogen during the Epoch of Reionization in thousand hour integrations poses stringent requirements on calibration and image quality, both of which necessitate accurate primary beam models. The Murchison Widefield Array (MWA) uses phased-array antenna elements which maximize collecting area at the cost of complexity. To quantify their performance, we have developed a novel beam measurement system using the 137 MHz ORBCOMM satellite constellation and a reference dipole antenna. Using power ratio measurements, we measure the in situ beampattern of the MWA antenna tile relative to that of the reference antenna, canceling the variation of satellite flux or polarization with time. We employ angular averaging to mitigate multipath effects (ground scattering) and assess environmental systematics with a null experiment in which the MWA tile is replaced with a second-reference dipole. We achieve beam measurements over 30 dB dynamic range in beam sensitivity over a large field of view (65% of the visible sky), far wider and deeper than drift scans through astronomical sources allow. We verify an analytic model of the MWA tile at this frequency within a few percent statistical scatter within the full width at half maximum. Toward the edges of the main lobe and in the sidelobes, we measure tens of percent systematic deviations. We compare these errors with those expected from known beamforming errors.

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MITEoR: a scalable interferometer for precision 21 cm cosmology

Cited by 87 publications

References 39 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

Optimized Beam Sculpting With Generalized Fringe-Rate Filters

Measuring phased‐array antenna beampatterns with high dynamic range for the Murchison Widefield Array using 137 MHz ORBCOMM satellites

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