# Active optics in astronomy - Freeform mirror for the MESSIER telescope   proposal

**Authors:** Gerard Lemaitre (LAM), Pascal Vola (LAM), Eduard Muslimov (LAM)

arXiv: 1901.07373 · 2019-01-23

## TL;DR

This paper proposes a novel active optics method using stress polishing to create freeform mirrors for a wide-field space telescope, combining elasticity and optical design optimization.

## Contribution

It introduces a new stress polishing technique for freeform mirror fabrication in space telescopes, integrating elasticity and optical optimization for high-quality imaging.

## Key findings

- Successful design of a freeform mirror using stress polishing
- Integration of elasticity and optical optimization methods
- Feasibility demonstrated through simulations and analysis

## Abstract

Active optics techniques in astronomy provide high imaging quality. This paper is dedicated to highly deformable active optics that can generate non-axisymmetric aspheric surfaces-or freeform surfaces-by use of a minimum number of actuators. The aspheric mirror is obtained from a single uniform load t h a t acts over the surface of a closed-form substrate whilst under axia l reaction to its elliptical perimeter ring during spherical polishing. MESSIER space proposal is a wide-field low-central-obstruction folded-two-mirror-anastigmat or here called briefly three-mirror-anastigmat (TMA) telescope. The optical design is a folded reflective Schmidt. Basic telescope features are 36cm aperture, f/2.5, with 1.6 o 2.6 o field of view and a curved field detector allowing null distortion aberration for drift-scan observations. The freeform mirror is generated by spherical stress polishing that provides super-polished freeform surfaces after elastic relaxation. Preliminary analysis required use of the optics theory of 3rd-order aberrations and elasticity theory of thin elliptical plates. Final cross-optimizations were carried out with Zemax raytracing code and Nastran FEA elasticity code in order to determine the complete geometry of a glass ceramic Zerodur deformable substrate.

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Source: https://tomesphere.com/paper/1901.07373