Design and analysis of an x-ray mirror assembly using the meta-shell approach

Ryan S. McClelland; Joseph A. Bonafede; Timo T. Saha; Peter M. Solly; William W. Zhang

doi:10.1117/12.2234464

18 July 2016 Design and analysis of an x-ray mirror assembly using the meta-shell approach

Ryan S. McClelland, Joseph A. Bonafede, Timo T. Saha, Peter M. Solly, William W. Zhang

Proceedings Volume 9905, Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray; 99057A (2016) https://doi.org/10.1117/12.2234464
Event: SPIE Astronomical Telescopes + Instrumentation, 2016, Edinburgh, United Kingdom

Abstract

Lightweight and high resolution optics are needed for future space-based x-ray telescopes to achieve advances in highenergy astrophysics. Past missions such as Chandra and XMM-Newton have achieved excellent angular resolution using a full shell mirror approach. Other missions such as Suzaku and NuSTAR have achieved lightweight mirrors using a segmented approach. This paper describes a new approach, called meta-shells, which combines the fabrication advantages of segmented optics with the alignment advantages of full shell optics. Meta-shells are built by layering overlapping mirror segments onto a central structural shell. The resulting optic has the stiffness and rotational symmetry of a full shell, but with an order of magnitude greater collecting area. Several meta-shells so constructed can be integrated into a large x-ray mirror assembly by proven methods used for Chandra and XMM-Newton.

The mirror segments are mounted to the meta-shell using a novel four point semi-kinematic mount. The four point mount deterministically locates the segment in its most performance sensitive degrees of freedom. Extensive analysis has been performed to demonstrate the feasibility of the four point mount and meta-shell approach. A mathematical model of a meta-shell constructed with mirror segments bonded at four points and subject to launch loads has been developed to determine the optimal design parameters, namely bond size, mirror segment span, and number of layers per meta-shell. The parameters of an example 1.3 m diameter mirror assembly are given including the predicted effective area. To verify the mathematical model and support opto-mechanical analysis, a detailed finite element model of a meta-shell was created. Finite element analysis predicts low gravity distortion and low sensitivity to thermal gradients.

Citation Download Citation

Ryan S. McClelland, Joseph A. Bonafede, Timo T. Saha, Peter M. Solly, and William W. Zhang "Design and analysis of an x-ray mirror assembly using the meta-shell approach", Proc. SPIE 9905, Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray, 99057A (18 July 2016); https://doi.org/10.1117/12.2234464

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