MOEMS deformable mirror testing in cryo for future optical instrumentation
Frederic Zamkotsian, Patrick Lanzoni, Rudy Barette, Emmanuel Grassi,, Patrick Vors, Michael Helmbrecht, Franck Marchis, Alex Teichman

TL;DR
This paper demonstrates the successful testing and characterization of MOEMS deformable mirrors in cryogenic and vacuum environments using interferometry, providing insights for future adaptive optics in telescopes.
Contribution
The study presents a novel interferometric setup for cryo-vacuum testing of MOEMS DMs, including design rules and successful operation at 160K, advancing adaptive optics technology.
Findings
Successful operation of MOEMS DMs at 160K
Achievement of <20nm rms flatness in cryo conditions
Ability to correct focus and tip-tilt deformations
Abstract
MOEMS Deformable Mirrors (DM) are key components for next generation instruments with innovative adaptive optics systems, in existing telescopes and in the future ELTs. These DMs must perform at room temperature as well as in cryogenic and vacuum environment. Ideally, the MOEMS-DMs must be designed to operate in such environment. We present some major rules for designing / operating DMs in cryo and vacuum. We chose to use interferometry for the full characterization of these devices, including surface quality measurement in static and dynamical modes, at ambient and in vacuum/cryo. Thanks to our previous set-up developments, we placed a compact cryo-vacuum chamber designed for reaching 10-6 mbar and 160K, in front of our custom Michelson interferometer, able to measure performances of the DM at actuator/segment level as well as whole mirror level, with a lateral resolution of 2{\mu}m…
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