TuMag Optical Unit Thermal Control for a Stratospheric Balloon-borne Mission

Alejandro Gonzalo, National Institute for Aerospace Technology(INTA), Spain Manuel Reina, National Institute for Aerospace Technology(INTA), Spain Antonio Sánchez, National Institute for Aerospace Technology(INTA), Spain Ana Fernández-Medina, National Institute for Aerospace Technology(INTA), Spain...

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Bibliographic Details
Main Authors: Gonzalo, Alejandro, Reina, Manuel, Sánchez, Antonio, Fernández-Medina, Ana, Cebollero, María, Laguna, Hugo, Escribano, David, Álvarez-Herrero, Alberto
Format: Conference Object
Language:English
Published: 2023 International Conference on Environmental Systems 2023
Subjects:
Thermal Control
Magnetograph
Balloon-borne
Rarefied atmosphere
Thermal testing
Thermal correlation
Flight data
Kiruna
Canada
Medina
Online Access:https://hdl.handle.net/2346/94592
Description
Summary:Alejandro Gonzalo, National Institute for Aerospace Technology(INTA), Spain Manuel Reina, National Institute for Aerospace Technology(INTA), Spain Antonio Sánchez, National Institute for Aerospace Technology(INTA), Spain Ana Fernández-Medina, National Institute for Aerospace Technology(INTA), Spain María Cebollero, National Institute for Aerospace Technology(INTA), Spain Hugo Laguna, National Institute for Aerospace Technology(INTA), Spain David Escribano, National Institute for Aerospace Technology(INTA), Spain Alberto Álvarez-Herrero, National Institute for Aerospace Technology(INTA), Spain ICES202: Satellite, Payload, and Instrument Thermal Control The 52nd International Conference on Environmental Systems was held in Calgary, Canada, on 16 July 2023 through 20 July 2023. The Tunable Magnetograph (TuMag) is an imaging tunable spectropolarimeter designed to study solar magnetic fields at high spatial resolution. It measures the state of polarization of light at three selected spectral solar lines: the Fe I at 525.02nm and 525.06nm, and the Mg I b2 at 517.27nm. TuMag is part of the post-focal instrumentation of the SUNRISE III mission whose first launch attempt was carried out from Kiruna (Sweden) in July 2022. The correct science performance of the instrument is strongly determined by the thermal stability of critical subsystems during observations. Elements such as the polarization modulator based on Liquid Crystal Variable Retarders, the LiNbO₃ etalon used to scan the spectral lines, or the three narrow bandpass filters with a ~1.5 Å FWHM mounted on a filter wheel, are required to operate within a tight temperature set-point. TuMag Thermal Control System (TCS) will guarantee the correct operational temperature for the aforementioned sub-systems at the time that provides a cooling mechanism for the detectors and minimizes thermo-elastic deformations across the optical path. It combines active and passive strategies in an architecture that profits from the unit location within the balloon ...

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