Epoch of reionization power spectrum limits from Murchison Widefield Array data targeted at EoR1 field

M. Rahimi; B. Pindor; J. L.B. Line; N. Barry; C. M. Trott; R. L. Webster; C. H. Jordan; M. Wilensky; S. Yoshiura; A. Beardsley; J. Bowman; R. Byrne; A. Chokshi; B. J. Hazelton; K. Hasegawa; E. Howard; B. Greig; D. Jacobs; R. Joseph; M. Kolopanis; C. Lynch; B. McKinley; D. A. Mitchell; S. Murray; M. F. Morales; J. C. Pober; K. Takahashi; S. J. Tingay; R. B. Wayth; J. S.B. Wyithe; Q. Zheng

doi:10.1093/mnras/stab2918

Epoch of reionization power spectrum limits from Murchison Widefield Array data targeted at EoR1 field

M. Rahimi, B. Pindor, J. L.B. Line, N. Barry, C. M. Trott, R. L. Webster, C. H. Jordan, M. Wilensky, S. Yoshiura, A. Beardsley, J. Bowman, R. Byrne, A. Chokshi, B. J. Hazelton, K. Hasegawa, E. Howard, B. Greig, D. Jacobs, R. Joseph, M. KolopanisC. Lynch, B. McKinley, D. A. Mitchell, S. Murray, M. F. Morales, J. C. Pober, K. Takahashi, S. J. Tingay, R. B. Wayth, J. S.B. Wyithe, Q. Zheng

Earth and Space Exploration, School of (SESE)

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

16 Scopus citations

Abstract

Current attempts to measure the 21 cm power spectrum of neutral hydrogen during the epoch of reionization (EoR) are limited by systematics that produce measured upper limits above both the thermal noise and the expected cosmological signal. These systematics arise from a combination of observational, instrumental, and analysis effects. In order to further understand and mitigate these effects, it is instructive to explore different aspects of existing data sets. One such aspect is the choice of observing field. To date, MWA EoR observations have largely focused on the EoR0 field. In this work, we present a new detailed analysis of the EoR1 field. The EoR1 field is one of the coldest regions of the southern radio sky, but contains the very bright radio galaxy Fornax-A. The presence of this bright extended source in the primary beam of the interferometer makes the calibration and analysis of EoR1 particularly challenging. We demonstrate the effectiveness of a recently developed shapelet model of Fornax-A in improving the results from this field. We also describe and apply a series of data quality metrics that identify and remove systematically contaminated data. With substantially improved source models, upgraded analysis algorithms and enhanced data quality metrics, we determine EoR power spectrum upper limits based on analysis of the best ∼14-h data observed during 2015 and 2014 at redshifts 6.5, 6.8, and 7.1, with the lowest 2σ upper limit at z = 6.5 of Δ2 ≤ (73.78 mK)2 at k = 0.13 h Mpc-1, improving on previous EoR1 measurement results.

Original language	English (US)
Pages (from-to)	5954-5971
Number of pages	18
Journal	Monthly Notices of the Royal Astronomical Society
Volume	508
Issue number	4
DOIs	https://doi.org/10.1093/mnras/stab2918
State	Published - Dec 1 2021

Keywords

(cosmology:) dark ages, reionization, first stars
methods: data analysis
methods: observational
techniques: interferometric

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1093/mnras/stab2918

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Rahimi, M., Pindor, B., Line, J. L. B., Barry, N., Trott, C. M., Webster, R. L., Jordan, C. H., Wilensky, M., Yoshiura, S., Beardsley, A., Bowman, J., Byrne, R., Chokshi, A., Hazelton, B. J., Hasegawa, K., Howard, E., Greig, B., Jacobs, D., Joseph, R., ... Zheng, Q. (2021). Epoch of reionization power spectrum limits from Murchison Widefield Array data targeted at EoR1 field. Monthly Notices of the Royal Astronomical Society, 508(4), 5954-5971. https://doi.org/10.1093/mnras/stab2918

Rahimi, M, Pindor, B, Line, JLB, Barry, N, Trott, CM, Webster, RL, Jordan, CH, Wilensky, M, Yoshiura, S, Beardsley, A, Bowman, J, Byrne, R, Chokshi, A, Hazelton, BJ, Hasegawa, K, Howard, E, Greig, B, Jacobs, D, Joseph, R, Kolopanis, M, Lynch, C, McKinley, B, Mitchell, DA, Murray, S, Morales, MF, Pober, JC, Takahashi, K, Tingay, SJ, Wayth, RB, Wyithe, JSB & Zheng, Q 2021, 'Epoch of reionization power spectrum limits from Murchison Widefield Array data targeted at EoR1 field', Monthly Notices of the Royal Astronomical Society, vol. 508, no. 4, pp. 5954-5971. https://doi.org/10.1093/mnras/stab2918

@article{b9237c924f7747df8ba7927717a1a926,

title = "Epoch of reionization power spectrum limits from Murchison Widefield Array data targeted at EoR1 field",

abstract = "Current attempts to measure the 21 cm power spectrum of neutral hydrogen during the epoch of reionization (EoR) are limited by systematics that produce measured upper limits above both the thermal noise and the expected cosmological signal. These systematics arise from a combination of observational, instrumental, and analysis effects. In order to further understand and mitigate these effects, it is instructive to explore different aspects of existing data sets. One such aspect is the choice of observing field. To date, MWA EoR observations have largely focused on the EoR0 field. In this work, we present a new detailed analysis of the EoR1 field. The EoR1 field is one of the coldest regions of the southern radio sky, but contains the very bright radio galaxy Fornax-A. The presence of this bright extended source in the primary beam of the interferometer makes the calibration and analysis of EoR1 particularly challenging. We demonstrate the effectiveness of a recently developed shapelet model of Fornax-A in improving the results from this field. We also describe and apply a series of data quality metrics that identify and remove systematically contaminated data. With substantially improved source models, upgraded analysis algorithms and enhanced data quality metrics, we determine EoR power spectrum upper limits based on analysis of the best ∼14-h data observed during 2015 and 2014 at redshifts 6.5, 6.8, and 7.1, with the lowest 2σ upper limit at z = 6.5 of Δ2 ≤ (73.78 mK)2 at k = 0.13 h Mpc-1, improving on previous EoR1 measurement results.",

keywords = "(cosmology:) dark ages, reionization, first stars, methods: data analysis, methods: observational, techniques: interferometric",

author = "M. Rahimi and B. Pindor and Line, {J. L.B.} and N. Barry and Trott, {C. M.} and Webster, {R. L.} and Jordan, {C. H.} and M. Wilensky and S. Yoshiura and A. Beardsley and J. Bowman and R. Byrne and A. Chokshi and Hazelton, {B. J.} and K. Hasegawa and E. Howard and B. Greig and D. Jacobs and R. Joseph and M. Kolopanis and C. Lynch and B. McKinley and Mitchell, {D. A.} and S. Murray and Morales, {M. F.} and Pober, {J. C.} and K. Takahashi and Tingay, {S. J.} and Wayth, {R. B.} and Wyithe, {J. S.B.} and Q. Zheng",

note = "Publisher Copyright: {\textcopyright} 2021 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.",

year = "2021",

month = dec,

day = "1",

doi = "10.1093/mnras/stab2918",

language = "English (US)",

volume = "508",

pages = "5954--5971",

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

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TY - JOUR

T1 - Epoch of reionization power spectrum limits from Murchison Widefield Array data targeted at EoR1 field

AU - Rahimi, M.

AU - Pindor, B.

AU - Line, J. L.B.

AU - Barry, N.

AU - Trott, C. M.

AU - Webster, R. L.

AU - Jordan, C. H.

AU - Wilensky, M.

AU - Yoshiura, S.

AU - Beardsley, A.

AU - Bowman, J.

AU - Byrne, R.

AU - Chokshi, A.

AU - Hazelton, B. J.

AU - Hasegawa, K.

AU - Howard, E.

AU - Greig, B.

AU - Jacobs, D.

AU - Joseph, R.

AU - Kolopanis, M.

AU - Lynch, C.

AU - McKinley, B.

AU - Mitchell, D. A.

AU - Murray, S.

AU - Morales, M. F.

AU - Pober, J. C.

AU - Takahashi, K.

AU - Tingay, S. J.

AU - Wayth, R. B.

AU - Wyithe, J. S.B.

AU - Zheng, Q.

PY - 2021/12/1

Y1 - 2021/12/1

N2 - Current attempts to measure the 21 cm power spectrum of neutral hydrogen during the epoch of reionization (EoR) are limited by systematics that produce measured upper limits above both the thermal noise and the expected cosmological signal. These systematics arise from a combination of observational, instrumental, and analysis effects. In order to further understand and mitigate these effects, it is instructive to explore different aspects of existing data sets. One such aspect is the choice of observing field. To date, MWA EoR observations have largely focused on the EoR0 field. In this work, we present a new detailed analysis of the EoR1 field. The EoR1 field is one of the coldest regions of the southern radio sky, but contains the very bright radio galaxy Fornax-A. The presence of this bright extended source in the primary beam of the interferometer makes the calibration and analysis of EoR1 particularly challenging. We demonstrate the effectiveness of a recently developed shapelet model of Fornax-A in improving the results from this field. We also describe and apply a series of data quality metrics that identify and remove systematically contaminated data. With substantially improved source models, upgraded analysis algorithms and enhanced data quality metrics, we determine EoR power spectrum upper limits based on analysis of the best ∼14-h data observed during 2015 and 2014 at redshifts 6.5, 6.8, and 7.1, with the lowest 2σ upper limit at z = 6.5 of Δ2 ≤ (73.78 mK)2 at k = 0.13 h Mpc-1, improving on previous EoR1 measurement results.

AB - Current attempts to measure the 21 cm power spectrum of neutral hydrogen during the epoch of reionization (EoR) are limited by systematics that produce measured upper limits above both the thermal noise and the expected cosmological signal. These systematics arise from a combination of observational, instrumental, and analysis effects. In order to further understand and mitigate these effects, it is instructive to explore different aspects of existing data sets. One such aspect is the choice of observing field. To date, MWA EoR observations have largely focused on the EoR0 field. In this work, we present a new detailed analysis of the EoR1 field. The EoR1 field is one of the coldest regions of the southern radio sky, but contains the very bright radio galaxy Fornax-A. The presence of this bright extended source in the primary beam of the interferometer makes the calibration and analysis of EoR1 particularly challenging. We demonstrate the effectiveness of a recently developed shapelet model of Fornax-A in improving the results from this field. We also describe and apply a series of data quality metrics that identify and remove systematically contaminated data. With substantially improved source models, upgraded analysis algorithms and enhanced data quality metrics, we determine EoR power spectrum upper limits based on analysis of the best ∼14-h data observed during 2015 and 2014 at redshifts 6.5, 6.8, and 7.1, with the lowest 2σ upper limit at z = 6.5 of Δ2 ≤ (73.78 mK)2 at k = 0.13 h Mpc-1, improving on previous EoR1 measurement results.

KW - (cosmology:) dark ages, reionization, first stars

KW - methods: data analysis

KW - methods: observational

KW - techniques: interferometric

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U2 - 10.1093/mnras/stab2918

DO - 10.1093/mnras/stab2918

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EP - 5971

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 4

ER -

Epoch of reionization power spectrum limits from Murchison Widefield Array data targeted at EoR1 field

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Keywords

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