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Communication Dans Un Congrès Année : 2020

Thermal tests of birefringent plates in molecular adhesion for spatial ultra-violet polarimetry

Résumé

High-resolution spectropolarimetry is a technique used to study many astronomical objects including stellar magnetic fields. It has mainly been used on ground for optical and, more recently, infrared (IR) observations. Space mission projects including ultra-violet (UV) high-resolution spectropolarimetry, such as Pollux onboard LUVOIR proposed to NASA, are being studied in Europe under CNES leadership. Bringing a spectropolarimeter into space means that the instrument should be prepared for space environment including temperatures. The UV polarimeter we are considering is composed by a rotating modulator and an analyzer. Both components are made of magnesium fluoride (MgF<SUB>2</SUB>). The modulator is a rotating block of waveplates in molecular adhesion, each plate having its own fast axis. The analyzer is a Wollaston prism, also made with molecular adhesion. MgF<SUB>2 </SUB>being birefringent, the plates and prism are anisotropic and will dilate and retract due to thermal changes differently along their fast and slow axes. Each plate having its own fast axis, the thermal changes will create stress at the interfaces, i.e. at the molecular adhesion between the plates. This study focuses on the most critical part: the plates of the modulator. To demonstrate the resistance of the modulator and increase its technological readiness level (TRL), an optical bench including interferometry has been set at the Paris Observatory. It allows us to observe in real time the state of the molecular adhesion between plates as they are submitted to thermal changes in a vacuum chamber. Additional samples have been tested in a thermal vacuum chamber at CNES. This article describes the modulator using molecular adhesion, the test experiments, and the conclusion of this thermal study. Although molecular adhesion broke in 2 samples during thermal cycling, most samples survived which provides encouraging results for this technique.
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Dates et versions

hal-03743371 , version 1 (02-08-2022)

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Maelle Le Gal, Coralie Neiner, Matthieu Louvel de Monceaux, Napoléon Nguyen Tuong, Jérôme Parisot, et al.. Thermal tests of birefringent plates in molecular adhesion for spatial ultra-violet polarimetry. Ground-based and Airborne Telescopes VIII, Dec 2020, online, United States. pp.1145132, ⟨10.1117/12.2561439⟩. ⟨hal-03743371⟩
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