Adaptive Optics system of the Evanescent Wave Coronagraph (EvWaCo): optimised phase plate and DM characterisation

Berdeu, Anthony; Sukpholtham, Sitthichat; Kongkaew, Puttiwat; Kawinkij, Adithep; Matthew, Ridsdill-Smith,; Tallon, Michel; Thiébaut, Éric; Chauvin, G.; Alagao, Mary Angelie

doi:10.1117/12.2628859

Cited by 4 publications

(12 citation statements)

References 6 publications

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“…where d ∈ R n dat is the vector of the n dat ∈ N data (here the wavefront slopes in each sub-aperture), S sy ∈ R n dat ×nw is the WFS synthetic model matrix (here the average phase derivative on each sub-aperture 11 ), w ∈ R nw is the vector of the wavefront described on n w ∈ N spatial knots (it can be innite for a continuous description of the wavefront), and n is the noise on the measurements. Let us also introduce M ∈ R nw×nact , the matrix of the mirror inuence function 5 of the n act ∈ N actuators of the DM, and G sy = S sy • M ∈ R n dat ×nact , the synthetic interaction matrix of the AO system that links the commands c ∈ R nact applied on the DM to their equivalent synthetic slopes.…”

Section: General Idea: Super-resolved Wavefront Reconstructionmentioning

confidence: 99%

“…The bench was also used to measure the inuence functions of the ALPAO 192DM. 5 These measurements are used to generate the mirror matrix M.…”

Section: Overview Of the End-to-end Model And Its Ao Loopmentioning

confidence: 99%

“…As a coronagraph dedicated to high contrast and high resolution imaging, EvWaCo implies the development of a dedicated extreme adaptive optics (AO) system. The description of its AO system and its associated characterisation bench aligned in the NARIT cleanroom is the subject of another paper by Berdeu et al 5 We remind here only its main features. This paper focuses on the two rst errors via an end-to-end model (E2E) that was developed along with the bench design and alignment.…”

Section: Introductionmentioning

confidence: 99%

“…This paper focuses on the two rst errors via an end-to-end model (E2E) that was developed along with the bench design and alignment. 5 The main objective of this tool is to have a numerical model as close as possible from the real bench to develop and test new AO algorithms or predict on-sky raw contrast. 12 Studying the discrepancies between the numerical predictions and the experimental data can be of great help to improve the models and develop more robust algorithms.…”

Section: Introductionmentioning

confidence: 99%

“…Thus, our E2E model integrates the real inuence function of the DM measured on the bench as well as the turbulence injected in the bench via a custom-designed phase plate. 5,13 First, in Section 2, we present a new analytical model of the tting error. Up-to-date, the only way to study the impact of the shape of the DM inuence function in the tting error is to perform extensive Monte Carlo simulations.…”

Section: Introductionmentioning

confidence: 99%

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Inverse problem approach in Extreme Adaptive Optics: analytical model of the fitting error and lowering of the aliasing

Berdeu¹,

Tallon

Thiébaut

et al. 2022

Adaptive Optics Systems VIII

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We present the results obtained with an end-to-end simulator of an Extreme Adaptive Optics (XAO) system control loop. It is used to predict its on-sky performances and to optimise the AO loop algorithms. It was rst used to validate a novel analytical model of the tting error, a limit due to the Deformable Mirror (DM) shape.Standard analytical models assume a sharp correction under the DM cuto frequency, disregarding the transition between the AO corrected and turbulence dominated domains. Our model account for the inuence function shape in this smooth transition. Then, it is well-known that Shack-Hartmann wavefront sensors (SH-WFS) have a limited spatial bandwidth, the high frequencies of the wavefront being seen as low frequencies. We show that this aliasing error can be partially compensated (both in terms of Strehl ratio and contrast) by adding priors on the turbulence statistics in the framework of an inverse problem approach. This represents an alternative to the standard additional optical lter used in XAO systems. In parallel to this numerical work, a bench was aligned to experimentally test the AO system and these new algorithms comprising a DM192 ALPAO deformable mirror and a 15×15 SH-WFS. We present the predicted performances of the AO loop based on end-to-end simulations.

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Section: General Idea: Super-resolved Wavefront Reconstructionmentioning

confidence: 99%

“…The bench was also used to measure the inuence functions of the ALPAO 192DM. 5 These measurements are used to generate the mirror matrix M.…”

Section: Overview Of the End-to-end Model And Its Ao Loopmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Inverse problem approach in Extreme Adaptive Optics: analytical model of the fitting error and lowering of the aliasing

Berdeu¹,

Tallon

Thiébaut

et al. 2022

Adaptive Optics Systems VIII

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Design, simulation, and testing of the evanescent wave coronagraph prototype port adapter to the Thai National Telescope

Thomrungpiyathan,

Prasit,

Alagao

et al. 2024

Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation VI

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The Evanescent Wave Coronagraph (EvWaCo) is a type of Lyot coronagraph that uses an achromatic focal plane mask comprising a lens and a prism in contact. The National Astronomical Research Institute of Thailand (NARIT) plans to install an EvWaCo prototype equipped with an adaptive optics system (AO) to correct the aberrated wavefront in real-time at the unused left Nasmyth port of the Thai National telescope. To prepare for this installation, a large adapter with a diameter of 1.3 m and twelve carbon fiber poles serve as the supporting beams to hold the prototype. This work focuses on the mechanical design and testing of the large adapter, considering the prototype requirements and installation limitations. In particular, mechanical deformations and stress distributions are analyzed under survival conditions. The maximum weight of the prototype is 200 kg, and a folding mirror installed in a translation stage is placed inside the large adapter. The structural optimization uses the finite element method to deal with the constraints and ensures a high performance. The carbon fiber poles comprise carbon fiber-reinforced polymer (CFRP) that reduce the weight by approximately 30% compared to an all-aluminum structure. Each carbon fiber pole weighs about 1.75 kg, and our testing results show that it can support up to eight times the prototype's weight. The epoxy adhesive, used to join different materials, can withstand a pull-out strength of up to three times the prototype's weight. The installation of this adapter is expected to start by the end of 2024.

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First results of the non-common path aberration correction in the Evanescent Wave Coronagraph testbed

Alagao,

Berdeu,

Tallon

et al. 2024

Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation VI

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The Evanescent Wave Coronagraph uses a focal plane mask comprising a lens and a prism placed in contact so that frustrated total internal reflection can occur -the principle governing starlight attenuation. This type of Lyot coronagraph has three main capabilities: i) the mask adapts itself to the wavelength, ii) the size of the mask is adjustable by pressure adjustment, and iii) both the light coming from the star and companion can be collected simultaneously. Previous experimental results, obtained without adaptive optics and in unpolarized light, showed a raw contrast of 10 −4 at 3 λ/D in the I-band and at 4 λ/D in the R-band. Its performance has been limited so far by uncorrected residual aberrations of the optical bench that generate speckles close to the inner working angle. To study the mask performances close to the diffraction limit and compare them with theoretical models, a deformable mirror is installed in the optical path of the testbed to perform wavefront correction. In this work, we report the results obtained in the laboratory using this upgraded setup. We show the preliminary results of correcting the non-common path aberrations using the scientific camera as the wavefront sensor and compare them with expected theoretical performances. The corrections are applied after finding the optimal commands that maximize the variance at the detector plane.

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Adaptive Optics system of the Evanescent Wave Coronagraph (EvWaCo): optimised phase plate and DM characterisation

Cited by 4 publications

References 6 publications

Inverse problem approach in Extreme Adaptive Optics: analytical model of the fitting error and lowering of the aliasing

Inverse problem approach in Extreme Adaptive Optics: analytical model of the fitting error and lowering of the aliasing

Design, simulation, and testing of the evanescent wave coronagraph prototype port adapter to the Thai National Telescope

First results of the non-common path aberration correction in the Evanescent Wave Coronagraph testbed

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