Constraining polarized foregrounds for eor experiments. i. 2d Power Spectra from the Paper-32 Imaging ArraY

S. A. Kohn; J. E. Aguirre; C. D. Nunhokee; G. Bernardi; J. C. Pober; Z. S. Ali; R. F. Bradley; C. L. Carilli; D. R. DeBoer; N. E. Gugliucci; Daniel Jacobs; P. Klima; D. H.E. Macmahon; J. R. Manley; D. F. Moore; A. R. Parsons; I. I. Stefan; W. P. Walbrugh

doi:10.3847/0004-637X/823/2/88

Constraining polarized foregrounds for eor experiments. i. 2d Power Spectra from the Paper-32 Imaging ArraY

S. A. Kohn, J. E. Aguirre, C. D. Nunhokee, G. Bernardi, J. C. Pober, Z. S. Ali, R. F. Bradley, C. L. Carilli, D. R. DeBoer, N. E. Gugliucci, Daniel Jacobs, P. Klima, D. H.E. Macmahon, J. R. Manley, D. F. Moore, A. R. Parsons, I. I. Stefan, W. P. Walbrugh

Earth and Space Exploration, School of (SESE)

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

30 Scopus citations

Abstract

Current generation low-frequency interferometers constructed with the objective of detecting the high-redshift 21 cm background aim to generate power spectra of the brightness temperature contrast of neutral hydrogen in primordial intergalactic medium. Two-dimensional (2D) power spectra (power in Fourier modes parallel and perpendicular to the line of sight) that formed from interferometric visibilities have been shown to delineate a boundary between spectrally smooth foregrounds (known as the wedge) and spectrally structured 21 cm background emission (the EoR window). However, polarized foregrounds are known to possess spectral structure due to Faraday rotation, which can leak into the EoR window. In this work we create and analyze 2D power spectra from the PAPER-32 imaging array in Stokes I, Q, U, and V. These allow us to observe and diagnose systematic effects in our calibration at high signal-to-noise within the Fourier space most relevant to EoR experiments. We observe well-defined windows in the Stokes visibilities, with Stokes Q, U, and V power spectra sharing a similar wedge shape to that seen in Stokes I. With modest polarization calibration, we see no evidence that polarization calibration errors move power outside the wedge in any Stokes visibility to the noise levels attained. Deeper integrations will be required to confirm that this behavior persists to the depth required for EoR detection.

Original language	English (US)
Article number	88
Journal	Astrophysical Journal
Volume	823
Issue number	2
DOIs	https://doi.org/10.3847/0004-637X/823/2/88
State	Published - Jun 1 2016

Keywords

Dark ages
First stars
Polarization
Reionization
Techniques: interferometric
cosmology: observations

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/0004-637X/823/2/88

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Kohn, S. A., Aguirre, J. E., Nunhokee, C. D., Bernardi, G., Pober, J. C., Ali, Z. S., Bradley, R. F., Carilli, C. L., DeBoer, D. R., Gugliucci, N. E., Jacobs, D., Klima, P., Macmahon, D. H. E., Manley, J. R., Moore, D. F., Parsons, A. R., Stefan, I. I., & Walbrugh, W. P. (2016). Constraining polarized foregrounds for eor experiments. i. 2d Power Spectra from the Paper-32 Imaging ArraY. Astrophysical Journal, 823(2), Article 88. https://doi.org/10.3847/0004-637X/823/2/88

Kohn, SA, Aguirre, JE, Nunhokee, CD, Bernardi, G, Pober, JC, Ali, ZS, Bradley, RF, Carilli, CL, DeBoer, DR, Gugliucci, NE, Jacobs, D, Klima, P, Macmahon, DHE, Manley, JR, Moore, DF, Parsons, AR, Stefan, II & Walbrugh, WP 2016, 'Constraining polarized foregrounds for eor experiments. i. 2d Power Spectra from the Paper-32 Imaging ArraY', Astrophysical Journal, vol. 823, no. 2, 88. https://doi.org/10.3847/0004-637X/823/2/88

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title = "Constraining polarized foregrounds for eor experiments. i. 2d Power Spectra from the Paper-32 Imaging ArraY",

abstract = "Current generation low-frequency interferometers constructed with the objective of detecting the high-redshift 21 cm background aim to generate power spectra of the brightness temperature contrast of neutral hydrogen in primordial intergalactic medium. Two-dimensional (2D) power spectra (power in Fourier modes parallel and perpendicular to the line of sight) that formed from interferometric visibilities have been shown to delineate a boundary between spectrally smooth foregrounds (known as the wedge) and spectrally structured 21 cm background emission (the EoR window). However, polarized foregrounds are known to possess spectral structure due to Faraday rotation, which can leak into the EoR window. In this work we create and analyze 2D power spectra from the PAPER-32 imaging array in Stokes I, Q, U, and V. These allow us to observe and diagnose systematic effects in our calibration at high signal-to-noise within the Fourier space most relevant to EoR experiments. We observe well-defined windows in the Stokes visibilities, with Stokes Q, U, and V power spectra sharing a similar wedge shape to that seen in Stokes I. With modest polarization calibration, we see no evidence that polarization calibration errors move power outside the wedge in any Stokes visibility to the noise levels attained. Deeper integrations will be required to confirm that this behavior persists to the depth required for EoR detection.",

keywords = "Dark ages, First stars, Polarization, Reionization, Techniques: interferometric, cosmology: observations",

author = "Kohn, {S. A.} and Aguirre, {J. E.} and Nunhokee, {C. D.} and G. Bernardi and Pober, {J. C.} and Ali, {Z. S.} and Bradley, {R. F.} and Carilli, {C. L.} and DeBoer, {D. R.} and Gugliucci, {N. E.} and Daniel Jacobs and P. Klima and Macmahon, {D. H.E.} and Manley, {J. R.} and Moore, {D. F.} and Parsons, {A. R.} and Stefan, {I. I.} and Walbrugh, {W. P.}",

year = "2016",

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doi = "10.3847/0004-637X/823/2/88",

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AU - Kohn, S. A.

AU - Aguirre, J. E.

AU - Nunhokee, C. D.

AU - Bernardi, G.

AU - Pober, J. C.

AU - Ali, Z. S.

AU - Bradley, R. F.

AU - Carilli, C. L.

AU - DeBoer, D. R.

AU - Gugliucci, N. E.

AU - Jacobs, Daniel

AU - Klima, P.

AU - Macmahon, D. H.E.

AU - Manley, J. R.

AU - Moore, D. F.

AU - Parsons, A. R.

AU - Stefan, I. I.

AU - Walbrugh, W. P.

PY - 2016/6/1

Y1 - 2016/6/1

N2 - Current generation low-frequency interferometers constructed with the objective of detecting the high-redshift 21 cm background aim to generate power spectra of the brightness temperature contrast of neutral hydrogen in primordial intergalactic medium. Two-dimensional (2D) power spectra (power in Fourier modes parallel and perpendicular to the line of sight) that formed from interferometric visibilities have been shown to delineate a boundary between spectrally smooth foregrounds (known as the wedge) and spectrally structured 21 cm background emission (the EoR window). However, polarized foregrounds are known to possess spectral structure due to Faraday rotation, which can leak into the EoR window. In this work we create and analyze 2D power spectra from the PAPER-32 imaging array in Stokes I, Q, U, and V. These allow us to observe and diagnose systematic effects in our calibration at high signal-to-noise within the Fourier space most relevant to EoR experiments. We observe well-defined windows in the Stokes visibilities, with Stokes Q, U, and V power spectra sharing a similar wedge shape to that seen in Stokes I. With modest polarization calibration, we see no evidence that polarization calibration errors move power outside the wedge in any Stokes visibility to the noise levels attained. Deeper integrations will be required to confirm that this behavior persists to the depth required for EoR detection.

AB - Current generation low-frequency interferometers constructed with the objective of detecting the high-redshift 21 cm background aim to generate power spectra of the brightness temperature contrast of neutral hydrogen in primordial intergalactic medium. Two-dimensional (2D) power spectra (power in Fourier modes parallel and perpendicular to the line of sight) that formed from interferometric visibilities have been shown to delineate a boundary between spectrally smooth foregrounds (known as the wedge) and spectrally structured 21 cm background emission (the EoR window). However, polarized foregrounds are known to possess spectral structure due to Faraday rotation, which can leak into the EoR window. In this work we create and analyze 2D power spectra from the PAPER-32 imaging array in Stokes I, Q, U, and V. These allow us to observe and diagnose systematic effects in our calibration at high signal-to-noise within the Fourier space most relevant to EoR experiments. We observe well-defined windows in the Stokes visibilities, with Stokes Q, U, and V power spectra sharing a similar wedge shape to that seen in Stokes I. With modest polarization calibration, we see no evidence that polarization calibration errors move power outside the wedge in any Stokes visibility to the noise levels attained. Deeper integrations will be required to confirm that this behavior persists to the depth required for EoR detection.

KW - Dark ages

KW - First stars

KW - Polarization

KW - Reionization

KW - Techniques: interferometric

KW - cosmology: observations

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JF - Astrophysical Journal

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ER -

Constraining polarized foregrounds for eor experiments. i. 2d Power Spectra from the Paper-32 Imaging ArraY

Abstract

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