Miska Le Louarn scite author profile

Turbulence correction in a large field of view by use of an adaptive optics imaging system with several deformable mirrors (DM's) conjugated to various heights is considered. The residual phase variance is computed for an optimized linear algorithm in which a correction of each turbulent layer is achieved by applying a combination of suitably smoothed and scaled input phase screens to all DM's. Finite turbulence outer scale and finite spatial resolution of the DM's are taken into account. A general expression for the isoplanatic angle thetaM of a system with M mirrors is derived in the limiting case of infinitely large apertures and Kolmogorov turbulence. Like Fried's isoplanatic angle theta0,thetaM is a function only of the turbulence vertical profile, is scalable with wavelength, and is independent of the telescope diameter. Use of angle thetaM permits the gain in the field of view due to the increased number of DM's to be quantified and their optimal conjugate heights to be found. Calculations with real turbulence profiles show that with three DM's a gain of 7-10x is possible, giving the typical and best isoplanatic field-of-view radii of 16 and 30 arcseconds, respectively, at lambda = 0.5 microm. It is shown that in the actual systems the isoplanatic field will be somewhat larger than thetaM owing to the combined effects of finite aperture diameter, finite outer scale, and optimized wave-front spatial filtering. However, this additional gain is not dramatic; it is less than 1.5x for large-aperture telescopes.

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CASIS: Cassegrain Adaptive-Optics Simultaneous Imaging System for the VLT

Kissler-Patig¹,

Casali²,

Délabre³

et al. 2009

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MAD the ESO multi-conjugate adaptive optics demonstrator

Marchetti

Hubin

Fedrigo

et al. 2003

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Comparison between a model-based and a conventional pyramid sensor reconstructor

Korkiakoski¹,

Vérinaud²,

Louarn³

et al. 2007

Appl. Opt.

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A model of a non-modulated pyramid wavefront sensor (P-WFS) based on Fourier optics has been presented. Linearizations of the model represented as Jacobian matrices are used to improve the P-WFS phase estimates. It has been shown in simulations that a linear approximation of the P-WFS is sufficient in closed-loop adaptive optics. Also a method to compute model-based synthetic P-WFS command matrices is shown, and its performance is compared to the conventional calibration. It was observed that in poor visibility the new calibration is better than the conventional.

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Adaptive optics for high-contrast imaging: pyramid sensor versus spatially filtered Shack—Hartmann sensor

Vérinaud

Louarn

Korkiakoski

et al. 2005

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A comparison between pyramid‐based and spatially filtered Shack–Hartmann‐based high‐order adaptive optics (AO) is presented in the framework of 8‐m‐class and extremely large telescopes (ELTs). We first show, with end‐to‐end simulations of an 8‐m AO assisted telescope, how each sensor deals with the aliasing error, which may be the dominant error source at high flux. Then, focusing on photon noise error propagation, we study the field dependence of the sensitivity gain provided by the pyramid sensor with respect to the Shack–Hartmann sensor. From this analysis, we investigate, with an analytical model, visible correction on ELTs for detection of Earth‐like exoplanets.

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Miska Le Louarn

Isoplanatism in a multiconjugate adaptive optics system

CASIS: Cassegrain Adaptive-Optics Simultaneous Imaging System for the VLT

MAD the ESO multi-conjugate adaptive optics demonstrator

Comparison between a model-based and a conventional pyramid sensor reconstructor

Adaptive optics for high-contrast imaging: pyramid sensor versus spatially filtered Shack—Hartmann sensor

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