PAPYRUS的现状:基于金字塔的自适应光学系统在LAM/OHP

Optical Systems Design Pub Date : 2021-09-24 DOI:10.1117/12.2597170

E. Muslimov, N. Levraud, V. Chambouleyron, I. Boudjema, A. Lau, A. Caillat, F. Pedreros, G. Otten, K. El Hadi, K. Joaquina, M. Maxime, M. El Morsy, O. Beltramo-Martin, R. Fétick, Z. Ke, J. Sauvage, B. Neichel, T. Fusco, J. Schmitt, A. Le Van Suu, J. Charton, A. Schimpf, B. Martin, F. Dintrono, S. Esposito, E. Piña

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引用次数: 3

摘要

普罗旺斯自适应光学金字塔运行系统(PAPYRUS)是一个基于金字塔的自适应光学(AO)系统，将安装在上普罗旺斯天文台(OHP) 1.52米望远镜(T152)的Coude焦点上。该项目由法国各地的博士生和博士后在工作人员的支持下开发，将现有的专业知识和硬件整合到研发测试平台中。这个试验台允许我们在天空中运行各种金字塔波前传感(WFS)控制算法，并对波前控制的新概念进行实验，并从该望远镜的大量可用夜晚中获得额外的好处。它还将作为计划在OHP举办的AO暑期学校期间学生的教学工具。据我们所知，这是天空上第一个基于教学金字塔的AO系统之一。PAPYRUS的关键部件是带有Alpao RTC的17x17致动器Alpao变形镜，极低噪音相机OCAM2k和4面玻璃金字塔。PAPYRUS的设计是为了成为一个简单和模块化的系统，以探索波前控制与天空上的金字塔WFS。我们介绍了PAPYRUS的概述，光机械设计的描述和项目的现状。

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Current status of PAPYRUS: the pyramid based adaptive optics system at LAM/OHP

The Provence Adaptive optics Pyramid Run System (PAPYRUS) is a pyramid-based Adaptive Optics (AO) system that will be installed at the Coude focus of the 1.52m telescope (T152) at the Observatoire de Haute Provence (OHP). The project is being developed by PhD students and Postdocs across France with support from staff members consolidating the existing expertise and hardware into an RD testbed. This testbed allows us to run various pyramid wavefront sensing (WFS) control algorithms on-sky and experiment on new concepts for wavefront control with additional benefit from the high number of available nights at this telescope. It will also function as a teaching tool for students during the planned AO summer school at OHP. To our knowledge, this is one of the first pedagogic pyramid-based AO systems on-sky. The key components of PAPYRUS are a 17x17 actuators Alpao deformable mirror with a Alpao RTC, a very low noise camera OCAM2k, and a 4-faces glass pyramid. PAPYRUS is designed in order to be a simple and modular system to explore wavefront control with a pyramid WFS on sky. We present an overview of PAPYRUS, a description of the opto-mechanical design and the current status of the project.

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Optical Systems Design

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