1California Institute of Technology (United States) 2European Southern Observatory (Chile) 3LESIA, Observatoire de Paris, CNRS, Univ. Paris Diderot, Univ. Pierre et Marie Curie (France) 4Lab. Lagrange, Univ. Cote d’Azur, CNRS, Observatoire de la Cote d’Azur (France)
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Direct imaging is the primary technique currently used to detect young and warm exoplanets and understand their formation scenarios. The extreme flux ratio between an exoplanet and its host star requires the use of coronagraphs to attenuate the starlight and create high contrast images. However, their performance is limited by wavefront aberrations that cause stellar photons to leak through the coronagraph and on to the science detector preventing the observation of fainter extrasolar companions. The VLT/SPHERE instrument takes advantage of its efficient adaptive optics system to minimize dynamical aberrations to improve the image contrast. In good seeing conditions, the performance is limited by quasi-static aberrations caused by slowly varying aberrations and manufacturing defects in the optical components. The mitigation of these aberrations requires additional wavefront sensing and control algorithms to enhance the contrast performance of SPHERE. Dark hole algorithms initially developed for space-based application and recently performed on SPHERE calibration unit have shown significant improvement in contrast. This work presents a status update of dark hole algorithms applied on SPHERE and the results obtained during the on-sky tests performed on February 15th 2022.
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Axel Potier, Zahed Wahhaj, Raphael Galicher, Johan Mazoyer, Pierre Baudoz, Gael Chauvin, Garreth Ruane, "Improving VLT/SPHERE without additional hardware: comparing quasi-static correction strategies," Proc. SPIE 12185, Adaptive Optics Systems VIII, 1218568 (29 August 2022); https://doi.org/10.1117/12.2629926