Performance of the polarization leakage correction in the PILOT data

Jean Philippe Bernard, Adam Bernard, Hélène Roussel, Ilyes Choubani, Dana Alina, Jonathan Aumont, Annie Hughes, Isabelle Ristorcelli, Samantha Stever, Tomotake Matsumura, Shinya Sugiyama, Kunimoto Komatsu, Giancarlo de Gasperis, Katia Ferrière, Vincent Guillet, Nathalie Ysard, Peter Ade, Paolo de Bernardis, Nicolas Bray, Bruno CraneJean Pierre Dubois, Matt Griffin, Peter Hargrave, Yuying Longval, Stephane Louvel, Bruno Maffei, Silvia Masi, Baptiste Mot, Johan Montel, François Pajot, Etienne Pérot, Nicolas Ponthieu, Louis Rodriguez, Valentin Sauvage, Giorgio Savini, Carole Tucker, François Vacher

    Research output: Contribution to journalArticlepeer-review

    Abstract

    The Polarized Instrument for Long-wavelength Observation of the Tenuous interstellar medium (PILOT) is a balloon-borne experiment that aims to measure the polarized emission of thermal dust at a wavelength of 240µm (1.2 THz). The PILOT experiment flew from Timmins, Ontario, Canada in 2015 and 2019 and from Alice Springs, Australia in April 2017. The in-flight performance of the instrument during the second flight was described in [1]. In this paper, we present data processing steps that were not presented in [1] and that we have recently implemented to correct for several remaining instrumental effects. The additional data processing concerns corrections related to detector cross-talk and readout circuit memory effects, and leakage from total intensity to polarization. We illustrate the above effects and the performance of our corrections using data obtained during the third flight of PILOT, but the methods used to assess the impact of these effects on the final science-ready data, and our strategies for correcting them will be applied to all PILOT data. We show that the above corrections, and in particular that for the intensity to polarization leakage, which is most critical for accurate polarization measurements with PILOT, are accurate to better than 0.4% as measured on Jupiter during flight#3.

    Original languageEnglish
    Pages (from-to)197-222
    Number of pages26
    JournalExperimental Astronomy
    Volume56
    Issue number1
    DOIs
    Publication statusPublished - Aug 2023

    Keywords

    • Far Infrared
    • Interstellar Dust
    • PILOT
    • Polarization
    • Systematic effects

    ASJC Scopus subject areas

    • Astronomy and Astrophysics
    • Space and Planetary Science

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