Extremely aspheric mirrors: prototype development of an innovative manufacturing process based on active optics

Zalpha Challita; Emmanuel Hugot; Marc Ferrari; Joël Le Merrer; David Le Mignant; Jean-Gabriel Cuby

doi:10.1117/12.925540

13 September 2012 Extremely aspheric mirrors: prototype development of an innovative manufacturing process based on active optics

Zalpha Challita, Emmanuel Hugot, Marc Ferrari, Joël Le Merrer, David Le Mignant, Jean-Gabriel Cuby

Author Affiliations +

Proceedings Volume 8450, Modern Technologies in Space- and Ground-based Telescopes and Instrumentation II; 845033 (2012) https://doi.org/10.1117/12.925540
Event: SPIE Astronomical Telescopes + Instrumentation, 2012, Amsterdam, Netherlands

Abstract

The next generation of focal-plane astronomical instruments requires technological breakthroughs to reduce their system complexity while increasing their scientific performances. Applied to the optical systems, recent studies show that the use of freeform reflective optics allows competitive compact systems with less optical components. In this context, our challenge is to supply an active freeform mirror system, using a combination of different active optics techniques. The optical shape will be provided during the fabrication using the mechanical property of metals to plasticize and will be coupled with a specific actuator system to compensate for the residual form errors, during the instrument operation phase. We present in this article the development of an innovative manufacturing process based on cold hydro-forming method, with the aim to adapt it for VIS/NIR requirements in terms of optical surface quality. It can operate on thin and flat polished initial substrates. The realization of a first prototype for a 100 mm optical diameter mirror is in progress, to compare the mechanical behaviours obtained by tests and by Finite Element Analysis (FEA), for different materials. Then, the formed samples will be characterized optically. The opto-mechanical results will allow a fine tuning of FEA parameters to optimize the residual form errors obtained through this process. It concerns the microstructure considerations, the springback effects and the work hardening evolutions of the samples, depending on the initial substrate properties and the boundary conditions applied. Modeling and tests have started with axi-symmetric spherical and aspherical shapes and will continue with highly aspherics and freeforms.

Citation Download Citation

Zalpha Challita, Emmanuel Hugot, Marc Ferrari, Joël Le Merrer, David Le Mignant, and Jean-Gabriel Cuby "Extremely aspheric mirrors: prototype development of an innovative manufacturing process based on active optics", Proc. SPIE 8450, Modern Technologies in Space- and Ground-based Telescopes and Instrumentation II, 845033 (13 September 2012); https://doi.org/10.1117/12.925540

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