A Forecast of the Sensitivity on the Measurement of the Optical Depth to Reionization with the GroundBIRD Experiment

K. Lee; R. T. Génova-Santos; M. Hazumi; S. Honda; H. Kutsuma; S. Oguri; C. Otani; M. W. Peel; Y. Sueno; J. Suzuki; O. Tajima; E. Won

doi:10.3847/1538-4357/ac024b

A Forecast of the Sensitivity on the Measurement of the Optical Depth to Reionization with the GroundBIRD Experiment

K. Lee, R. T. Génova-Santos, M. Hazumi, S. Honda, H. Kutsuma, S. Oguri, C. Otani, M. W. Peel, Y. Sueno, J. Suzuki, O. Tajima, E. Won

Department of Physics

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2 Citations (Scopus)

Abstract

We compute the expected sensitivity on measurements of optical depth to reionization for a ground-based experiment at Teide Observatory. We simulate polarized partial sky maps for the GroundBIRD experiment at the frequencies 145 and 220 GHz. We perform fits for the simulated maps with our pixel-based likelihood to extract the optical depth to reionization. The noise levels of polarization maps are estimated as 110 μK and 780 μK for 145 and 220 GHz, respectively, by assuming a three-year observing campaign and sky coverages of 0.537 for 145 GHz and 0.462 for 220 GHz. Our sensitivities for the optical depth to reionization are found to be σ τ = 0.030 with the simulated GroundBIRD maps, and σ τ = 0.012 by combining with the simulated QUIJOTE maps at 11, 13, 17, 19, 30, and 40 GHz.

Original language	English
Article number	88
Journal	Astrophysical Journal
Volume	915
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/ac024b
Publication status	Published - 2021 Jul 10

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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title = "A Forecast of the Sensitivity on the Measurement of the Optical Depth to Reionization with the GroundBIRD Experiment",

abstract = "We compute the expected sensitivity on measurements of optical depth to reionization for a ground-based experiment at Teide Observatory. We simulate polarized partial sky maps for the GroundBIRD experiment at the frequencies 145 and 220 GHz. We perform fits for the simulated maps with our pixel-based likelihood to extract the optical depth to reionization. The noise levels of polarization maps are estimated as 110 μK and 780 μK for 145 and 220 GHz, respectively, by assuming a three-year observing campaign and sky coverages of 0.537 for 145 GHz and 0.462 for 220 GHz. Our sensitivities for the optical depth to reionization are found to be σ τ = 0.030 with the simulated GroundBIRD maps, and σ τ = 0.012 by combining with the simulated QUIJOTE maps at 11, 13, 17, 19, 30, and 40 GHz.",

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T1 - A Forecast of the Sensitivity on the Measurement of the Optical Depth to Reionization with the GroundBIRD Experiment

AU - Lee, K.

AU - Génova-Santos, R. T.

AU - Hazumi, M.

AU - Honda, S.

AU - Kutsuma, H.

AU - Oguri, S.

AU - Otani, C.

AU - Peel, M. W.

AU - Sueno, Y.

AU - Suzuki, J.

AU - Tajima, O.

AU - Won, E.

PY - 2021/7/10

Y1 - 2021/7/10

N2 - We compute the expected sensitivity on measurements of optical depth to reionization for a ground-based experiment at Teide Observatory. We simulate polarized partial sky maps for the GroundBIRD experiment at the frequencies 145 and 220 GHz. We perform fits for the simulated maps with our pixel-based likelihood to extract the optical depth to reionization. The noise levels of polarization maps are estimated as 110 μK and 780 μK for 145 and 220 GHz, respectively, by assuming a three-year observing campaign and sky coverages of 0.537 for 145 GHz and 0.462 for 220 GHz. Our sensitivities for the optical depth to reionization are found to be σ τ = 0.030 with the simulated GroundBIRD maps, and σ τ = 0.012 by combining with the simulated QUIJOTE maps at 11, 13, 17, 19, 30, and 40 GHz.

AB - We compute the expected sensitivity on measurements of optical depth to reionization for a ground-based experiment at Teide Observatory. We simulate polarized partial sky maps for the GroundBIRD experiment at the frequencies 145 and 220 GHz. We perform fits for the simulated maps with our pixel-based likelihood to extract the optical depth to reionization. The noise levels of polarization maps are estimated as 110 μK and 780 μK for 145 and 220 GHz, respectively, by assuming a three-year observing campaign and sky coverages of 0.537 for 145 GHz and 0.462 for 220 GHz. Our sensitivities for the optical depth to reionization are found to be σ τ = 0.030 with the simulated GroundBIRD maps, and σ τ = 0.012 by combining with the simulated QUIJOTE maps at 11, 13, 17, 19, 30, and 40 GHz.

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DO - 10.3847/1538-4357/ac024b

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SN - 0004-637X

VL - 915

JO - Astrophysical Journal

JF - Astrophysical Journal

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M1 - 88

ER -

A Forecast of the Sensitivity on the Measurement of the Optical Depth to Reionization with the GroundBIRD Experiment

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