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Main Authors: Fasano, Alessandro, Fernández-Torreiro, Mateo, Pascual-Cisneros, Guillermo, Hoyland, Roger John, Casas-Reinares, Francisco Javier, Génova-Santos, Ricardo Tanausú, Peel, Michael William, Rebolo-López, Rafael, Rubiño-Martín, José Alberto
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.14407
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author Fasano, Alessandro
Fernández-Torreiro, Mateo
Pascual-Cisneros, Guillermo
Hoyland, Roger John
Casas-Reinares, Francisco Javier
Génova-Santos, Ricardo Tanausú
Peel, Michael William
Rebolo-López, Rafael
Rubiño-Martín, José Alberto
author_facet Fasano, Alessandro
Fernández-Torreiro, Mateo
Pascual-Cisneros, Guillermo
Hoyland, Roger John
Casas-Reinares, Francisco Javier
Génova-Santos, Ricardo Tanausú
Peel, Michael William
Rebolo-López, Rafael
Rubiño-Martín, José Alberto
contents Our objective is to characterize the QUIJOTE Thirty and Forty GHz instrument (TFGI), calibrate it with a reference calibration signal on the ground, compare our results with on-sky calibration based on bright sources, and study the stability of the calibration parameters over time. First, from the ground, we fit the data using a reference calibration signal (a diode) introduced to resolve degeneracies among the various instrument angles. Finally, we utilize on-sky observations of Tau A and the Moon to validate the results. By creating calibration datasets obtained with the reference diode, we evaluate the data quality and quantify phase switch errors to account for the fine polarization response. We also utilize Tau A and Moon observations to calibrate the system's response and stability over time. In addition, we calculate the refraction index of the Moon to be $n_{Moon}$ = 1.209 $\pm$ 0.007 (stat) $\pm$ 0.005 (sys) at 31 GHz under smooth-surface assumption. The results from fitting the instrument phase-switch error angle align with 0 deg at 2$σ$ precision, indicating that no further correction is required within a few percent precision. The calibrations with astrophysical sources (Tau A and the Moon) yield consistent results that constrain the polarization angle and responsivity. The polarization efficiency aligns well with ground measurements and the Tau A characterization, whereas the Moon-based calibration is more affected by systematics. We find hints of responsivity variations over time, although the relative responsivity between channels is found to remain stable. In the future, we conclude that installing a live calibrator will enhance performance by continuously monitoring responsivity and, in turn, improving the mitigation of systematic effects.
format Preprint
id arxiv_https___arxiv_org_abs_2512_14407
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle QUIJOTE-TFGI polarization calibration -- Ground characterization and on-sky validation with Tau A and the Moon
Fasano, Alessandro
Fernández-Torreiro, Mateo
Pascual-Cisneros, Guillermo
Hoyland, Roger John
Casas-Reinares, Francisco Javier
Génova-Santos, Ricardo Tanausú
Peel, Michael William
Rebolo-López, Rafael
Rubiño-Martín, José Alberto
Instrumentation and Methods for Astrophysics
Our objective is to characterize the QUIJOTE Thirty and Forty GHz instrument (TFGI), calibrate it with a reference calibration signal on the ground, compare our results with on-sky calibration based on bright sources, and study the stability of the calibration parameters over time. First, from the ground, we fit the data using a reference calibration signal (a diode) introduced to resolve degeneracies among the various instrument angles. Finally, we utilize on-sky observations of Tau A and the Moon to validate the results. By creating calibration datasets obtained with the reference diode, we evaluate the data quality and quantify phase switch errors to account for the fine polarization response. We also utilize Tau A and Moon observations to calibrate the system's response and stability over time. In addition, we calculate the refraction index of the Moon to be $n_{Moon}$ = 1.209 $\pm$ 0.007 (stat) $\pm$ 0.005 (sys) at 31 GHz under smooth-surface assumption. The results from fitting the instrument phase-switch error angle align with 0 deg at 2$σ$ precision, indicating that no further correction is required within a few percent precision. The calibrations with astrophysical sources (Tau A and the Moon) yield consistent results that constrain the polarization angle and responsivity. The polarization efficiency aligns well with ground measurements and the Tau A characterization, whereas the Moon-based calibration is more affected by systematics. We find hints of responsivity variations over time, although the relative responsivity between channels is found to remain stable. In the future, we conclude that installing a live calibrator will enhance performance by continuously monitoring responsivity and, in turn, improving the mitigation of systematic effects.
title QUIJOTE-TFGI polarization calibration -- Ground characterization and on-sky validation with Tau A and the Moon
topic Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2512.14407