QUIJOTE scientific results - VIII. Diffuse polarized foregrounds from component separation with QUIJOTE-MFI

E. de la Hoz; R.~B. Barreiro; P. Vielva; E. Martinez-González; J.~A. Rubiño-Martin; B. Casaponsa; F. Guidi; M. Ashdown; R.~T. Génova-Santos; E. Artal; F.~J. Casas; R. Fernández-Cobos; M. Fernández-Torreiro; D. Herranz; R.~J. Hoyland; A.~N. Lasenby; M. López-Caniego; C.~H. López-Caraballo; M.~W. Peel; L. Piccirillo; F. Poidevin; R. Rebolo; B. Ruiz-Granados; D. Tramonte; F. Vansyngel; R.~A. Watson

doi:10.1093/mnras/stac3020

QUIJOTE scientific results - VIII. Diffuse polarized foregrounds from component separation with QUIJOTE-MFI

E. de la Hoz, R.~B. Barreiro, P. Vielva, E. Martinez-González, J.~A. Rubiño-Martin, B. Casaponsa, F. Guidi, M. Ashdown, R.~T. Génova-Santos, E. Artal, F.~J. Casas, R. Fernández-Cobos, M. Fernández-Torreiro, D. Herranz, R.~J. Hoyland, A.~N. Lasenby, M. López-Caniego, C.~H. López-Caraballo, M.~W. Peel, L. PiccirilloF. Poidevin, R. Rebolo, B. Ruiz-Granados, D. Tramonte, F. Vansyngel, R.~A. Watson

Department of Physics

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

10 Citations (Scopus)

Abstract

We derive linearly polarized astrophysical component maps in the Northern Sky from the QUIJOTE-MFI data at 11 and 13 GHz in combination with the Wilkinson Microwave Anisotropy Probe K and Ka bands (23 and 33 GHz) and all Planck polarized channels (30-353 GHz), using the parametric component separation method B-SeCRET. The addition of QUIJOTE-MFI data significantly improves the parameter estimation of the low-frequency foregrounds, especially the estimation of the synchrotron spectral index, βs. We present the first detailed βs map of the Northern Celestial Hemisphere at a smoothing scale of 2°. We find statistically significant spatial variability across the sky. We obtain an average value of -3.08 and a dispersion of 0.13, considering only pixels with reliable goodness of fit. The power-law model of the synchrotron emission provides a good fit to the data outside the Galactic plane but fails to track the complexity within this region. Moreover, when we assume a synchrotron model with uniform curvature, cs, we find a value of cs = -0.0797 ± 0.0012. However, there is insufficient statistical significance to determine which model is favoured, either the power law or the power law with uniform curvature. Furthermore, we estimate the thermal dust spectral parameters in polarization. Our cosmic microwave background, synchrotron, and thermal dust maps are highly correlated with the corresponding products of the PR4 Planck release, although some large-scale differences are observed in the synchrotron emission. Finally, we find that the βs estimation in the high signal-to-noise synchrotron emission areas is prior-independent, while, outside these regions, the prior governs the βs estimation.

Original language	Undefined/Unknown
Pages (from-to)	3504-3525
Number of pages	22
Journal	mnras
Volume	519
Issue number	3
DOIs	https://doi.org/10.1093/mnras/stac3020
Publication status	Published - 1 Mar 2023

Keywords

cosmology: observations
methods: data analysis
polarization
cosmic microwave background
Astrophysics - Cosmology and Nongalactic Astrophysics
Astrophysics - Astrophysics of Galaxies

Access to Document

10.1093/mnras/stac3020

Cite this

de la Hoz, E., Barreiro, R. B., Vielva, P., Martinez-González, E., Rubiño-Martin, J. A., Casaponsa, B., Guidi, F., Ashdown, M., Génova-Santos, R. T., Artal, E., Casas, F. J., Fernández-Cobos, R., Fernández-Torreiro, M., Herranz, D., Hoyland, R. J., Lasenby, A. N., López-Caniego, M., López-Caraballo, C. H., Peel, M. W., ... Watson, R. A. (2023). QUIJOTE scientific results - VIII. Diffuse polarized foregrounds from component separation with QUIJOTE-MFI. mnras, 519(3), 3504-3525. https://doi.org/10.1093/mnras/stac3020

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title = "QUIJOTE scientific results - VIII. Diffuse polarized foregrounds from component separation with QUIJOTE-MFI",

abstract = "We derive linearly polarized astrophysical component maps in the Northern Sky from the QUIJOTE-MFI data at 11 and 13 GHz in combination with the Wilkinson Microwave Anisotropy Probe K and Ka bands (23 and 33 GHz) and all Planck polarized channels (30-353 GHz), using the parametric component separation method B-SeCRET. The addition of QUIJOTE-MFI data significantly improves the parameter estimation of the low-frequency foregrounds, especially the estimation of the synchrotron spectral index, βs. We present the first detailed βs map of the Northern Celestial Hemisphere at a smoothing scale of 2°. We find statistically significant spatial variability across the sky. We obtain an average value of -3.08 and a dispersion of 0.13, considering only pixels with reliable goodness of fit. The power-law model of the synchrotron emission provides a good fit to the data outside the Galactic plane but fails to track the complexity within this region. Moreover, when we assume a synchrotron model with uniform curvature, cs, we find a value of cs = -0.0797 ± 0.0012. However, there is insufficient statistical significance to determine which model is favoured, either the power law or the power law with uniform curvature. Furthermore, we estimate the thermal dust spectral parameters in polarization. Our cosmic microwave background, synchrotron, and thermal dust maps are highly correlated with the corresponding products of the PR4 Planck release, although some large-scale differences are observed in the synchrotron emission. Finally, we find that the βs estimation in the high signal-to-noise synchrotron emission areas is prior-independent, while, outside these regions, the prior governs the βs estimation.",

keywords = "cosmology: observations, methods: data analysis, polarization, cosmic microwave background, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies",

author = "{de la Hoz}, E. and R.~B. Barreiro and P. Vielva and E. Martinez-Gonz{\'a}lez and J.~A. Rubi{\~n}o-Martin and B. Casaponsa and F. Guidi and M. Ashdown and R.~T. G{\'e}nova-Santos and E. Artal and F.~J. Casas and R. Fern{\'a}ndez-Cobos and M. Fern{\'a}ndez-Torreiro and D. Herranz and R.~J. Hoyland and A.~N. Lasenby and M. L{\'o}pez-Caniego and C.~H. L{\'o}pez-Caraballo and M.~W. Peel and L. Piccirillo and F. Poidevin and R. Rebolo and B. Ruiz-Granados and D. Tramonte and F. Vansyngel and R.~A. Watson",

year = "2023",

month = mar,

day = "1",

doi = "10.1093/mnras/stac3020",

language = "未定义/未知",

volume = "519",

pages = "3504--3525",

journal = "mnras",

number = "3",

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de la Hoz, E, Barreiro, RB, Vielva, P, Martinez-González, E, Rubiño-Martin, JA, Casaponsa, B, Guidi, F, Ashdown, M, Génova-Santos, RT, Artal, E, Casas, FJ, Fernández-Cobos, R, Fernández-Torreiro, M, Herranz, D, Hoyland, RJ, Lasenby, AN, López-Caniego, M, López-Caraballo, CH, Peel, MW, Piccirillo, L, Poidevin, F, Rebolo, R, Ruiz-Granados, B, Tramonte, D, Vansyngel, F & Watson, RA 2023, 'QUIJOTE scientific results - VIII. Diffuse polarized foregrounds from component separation with QUIJOTE-MFI', mnras, vol. 519, no. 3, pp. 3504-3525. https://doi.org/10.1093/mnras/stac3020

TY - JOUR

T1 - QUIJOTE scientific results - VIII. Diffuse polarized foregrounds from component separation with QUIJOTE-MFI

AU - de la Hoz, E.

AU - Barreiro, R.~B.

AU - Vielva, P.

AU - Martinez-González, E.

AU - Rubiño-Martin, J.~A.

AU - Casaponsa, B.

AU - Guidi, F.

AU - Ashdown, M.

AU - Génova-Santos, R.~T.

AU - Artal, E.

AU - Casas, F.~J.

AU - Fernández-Cobos, R.

AU - Fernández-Torreiro, M.

AU - Herranz, D.

AU - Hoyland, R.~J.

AU - Lasenby, A.~N.

AU - López-Caniego, M.

AU - López-Caraballo, C.~H.

AU - Peel, M.~W.

AU - Piccirillo, L.

AU - Poidevin, F.

AU - Rebolo, R.

AU - Ruiz-Granados, B.

AU - Tramonte, D.

AU - Vansyngel, F.

AU - Watson, R.~A.

PY - 2023/3/1

Y1 - 2023/3/1

N2 - We derive linearly polarized astrophysical component maps in the Northern Sky from the QUIJOTE-MFI data at 11 and 13 GHz in combination with the Wilkinson Microwave Anisotropy Probe K and Ka bands (23 and 33 GHz) and all Planck polarized channels (30-353 GHz), using the parametric component separation method B-SeCRET. The addition of QUIJOTE-MFI data significantly improves the parameter estimation of the low-frequency foregrounds, especially the estimation of the synchrotron spectral index, βs. We present the first detailed βs map of the Northern Celestial Hemisphere at a smoothing scale of 2°. We find statistically significant spatial variability across the sky. We obtain an average value of -3.08 and a dispersion of 0.13, considering only pixels with reliable goodness of fit. The power-law model of the synchrotron emission provides a good fit to the data outside the Galactic plane but fails to track the complexity within this region. Moreover, when we assume a synchrotron model with uniform curvature, cs, we find a value of cs = -0.0797 ± 0.0012. However, there is insufficient statistical significance to determine which model is favoured, either the power law or the power law with uniform curvature. Furthermore, we estimate the thermal dust spectral parameters in polarization. Our cosmic microwave background, synchrotron, and thermal dust maps are highly correlated with the corresponding products of the PR4 Planck release, although some large-scale differences are observed in the synchrotron emission. Finally, we find that the βs estimation in the high signal-to-noise synchrotron emission areas is prior-independent, while, outside these regions, the prior governs the βs estimation.

AB - We derive linearly polarized astrophysical component maps in the Northern Sky from the QUIJOTE-MFI data at 11 and 13 GHz in combination with the Wilkinson Microwave Anisotropy Probe K and Ka bands (23 and 33 GHz) and all Planck polarized channels (30-353 GHz), using the parametric component separation method B-SeCRET. The addition of QUIJOTE-MFI data significantly improves the parameter estimation of the low-frequency foregrounds, especially the estimation of the synchrotron spectral index, βs. We present the first detailed βs map of the Northern Celestial Hemisphere at a smoothing scale of 2°. We find statistically significant spatial variability across the sky. We obtain an average value of -3.08 and a dispersion of 0.13, considering only pixels with reliable goodness of fit. The power-law model of the synchrotron emission provides a good fit to the data outside the Galactic plane but fails to track the complexity within this region. Moreover, when we assume a synchrotron model with uniform curvature, cs, we find a value of cs = -0.0797 ± 0.0012. However, there is insufficient statistical significance to determine which model is favoured, either the power law or the power law with uniform curvature. Furthermore, we estimate the thermal dust spectral parameters in polarization. Our cosmic microwave background, synchrotron, and thermal dust maps are highly correlated with the corresponding products of the PR4 Planck release, although some large-scale differences are observed in the synchrotron emission. Finally, we find that the βs estimation in the high signal-to-noise synchrotron emission areas is prior-independent, while, outside these regions, the prior governs the βs estimation.

KW - cosmology: observations

KW - methods: data analysis

KW - polarization

KW - cosmic microwave background

KW - Astrophysics - Cosmology and Nongalactic Astrophysics

KW - Astrophysics - Astrophysics of Galaxies

U2 - 10.1093/mnras/stac3020

DO - 10.1093/mnras/stac3020

M3 - 文章

VL - 519

SP - 3504

EP - 3525

JO - mnras

JF - mnras

IS - 3

ER -