RISTRETTO: a VLT XAO design to reach Proxima Cen b in the visible

arXiv - PHYS - Instrumentation and Methods for Astrophysics Pub Date : 2024-09-12 DOI:arxiv-2409.08052

N. Blind, M. Shinde, I. Dinis, N. Restori, B. Chazelas, T. Fusco, O. Guyon, J. Kuehn, C. Lovis, P. Martinez, M. Motte, J. -F. Sauvage, A. Spang

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Abstract

RISTRETTO is the evolution of the original idea of coupling the VLT instruments SPHERE and ESPRESSO \cite{lovis_2016a}, aiming at High Dispersion Coronagraphy. RISTRETTO is a visitor instrument that should enable the characterization of the atmospheres of nearby exoplanets in reflected light, by using the technique of high-contrast, high-resolution spectroscopy. Its goal is to observe Prox Cen b and other planets placed at about 35mas from their star, i.e. $2\lambda/D$ at $\lambda$=750nm. The instrument is composed of an extreme adaptive optics, a coronagraphic Integral Field Unit, and a diffraction-limited spectrograph (R=140.000, $\lambda =$620-840 nm). We present the RISTRETTO XAO architecture that reach the specification, providing contrasts down to $5\times10^{-5}$ at 2$\lambda/D$ from the star in the visible, in the presence of atmosphere and low wind effect. This performance is allowed by a new two-sensors-one-dm architecture, some variations to the already known concepts of unmodulated pyWFS and zWFS, and exploiting to the maximum of their capabilities the state-of-the-art high speed, low noise cameras \& fast DM. We present the result of end-to-end simulations, that demonstrate stable closed loop operation of an unmodulated pyramid and a zernike WFS (together), and in presence of low wind effect.

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RISTRETTO：VLT XAO 设计，用于在可见光下观测比邻仙后座 b

RISTRETTO是将VLT仪器SPHERE和ESPRESSO（cite{lovis_2016a}）耦合起来的最初想法的演变，旨在进行高色散冕仪研究。RISTRETTO是一个访问者仪器，它能够利用高对比度、高分辨率光谱技术，通过反射光描述附近系外行星大气的特征。它的目标是观测Prox Cen b和其他距离恒星约35mas的行星，即在$\lambda$=750nm波长下的2\lambda/D$。该仪器由一个极端自适应光学系统、一个日冕仪积分场单元和一个衍射极限光谱仪（R=140.000，$\lambda =$620-840 nm）组成。我们介绍的 RISTRETTO XAO 结构达到了规范要求，在有大气和低风效应的情况下，在距离可见恒星 2 美元（lambda/D）处的对比度低至 5 美元（times10^{-5}）。这种性能得益于一种新的双传感器一DM架构，对已知的非调制pyWFS和zWFS概念进行了一些改动，并最大限度地利用了最先进的高速、低噪相机和快速DM。我们展示了端到端的仿真结果，证明了未调制金字塔和zernike WFS（一起）在低风速效应下的稳定闭环运行。

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arXiv - PHYS - Instrumentation and Methods for Astrophysics

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