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Communication Dans Un Congrès Année : 2019

Exoplanet direct imaging in ground-based conditions on THD2 bench

Résumé

The next generation of ground-based instruments aims to break through the knowledge we have on exoplanets by imaging circumstellar environments always closer to the stars. However, direct imaging requires an AO system and high-contrast techniques like a coronagraph to reject the diffracted light of an observed star and an additional wavefront sensor to control quasi-static aberrations, including the non common path aberrations. To observe faint objects, a focal plane wavefront sensor with a sub-nanometric wavefront control capability is required. In the past few years, we developed the THD2 bench which is a testbed for high-contrast imaging techniques, working in visible and near infrared wavelengths and currently reaching contrast levels lower than 1e-8 under space-like simulated conditions. We recently added a turbulence wheel on the optical path which simulates the residuals given by a typical extreme adaptive optics system and we tested several ways to remove quasi-statics speckles. One way to estimate the aberrations is a method called pair-wise probing where we record few images with known-shapes we apply on the adaptive optics deformable mirror. Once estimated, we seek to minimize the focal-plane electric field by an algorithm called Electric Field Conjugation. In this paper, we present the first results obtained on the THD2 bench using these two techniques together in turbulent conditions. We then compare the achieved performance with the one expected when all the quasi-static speckles are corrected.

Dates et versions

hal-03724484 , version 1 (15-07-2022)

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Axel Potier, Pierre Baudoz, Raphaël Galicher, Elsa Huby, Garima Singh. Exoplanet direct imaging in ground-based conditions on THD2 bench. Proceedings of the AO4ELT6 Conference, Jun 2019, Québec City, Canada, Canada. pp.arXiv:1910.09064. ⟨hal-03724484⟩
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