Optimization of lightweight structure and supporting bipod flexure for a space mirror

Yi Cheng Chen, Bo Kai Huang, Zhen Ting You, Chia Yen Chan, Ting Ming Huang

研究成果: 雜誌貢獻期刊論文同行評審

32 引文 斯高帕斯(Scopus)


This article presents an optimization process for integrated optomechanical design. The proposed optimization process for integrated optomechanical design comprises computer-aided drafting, finite element analysis (FEA), optomechanical transfer codes, and an optimization solver. The FEA was conducted to determine mirror surface deformation; then, deformed surface nodal data were transferred into Zernike polynomials through MATLAB optomechanical transfer codes to calculate the resulting optical path difference (OPD) and optical aberrations. To achieve an optimum design, the optimization iterations of the FEA, optomechanical transfer codes, and optimization solver were automatically connected through a self-developed Tcl script. Two examples of optimization design were illustrated in this research, namely, an optimum lightweight design of a Zerodur primary mirror with an outer diameter of 566 mm that is used in a spaceborne telescope and an optimum bipod flexure design that supports the optimum lightweight primary mirror. Finally, optimum designs were successfully accomplished in both examples, achieving a minimum peak-to-valley (PV) value for the OPD of the deformed optical surface. The simulated optimization results showed that (1) the lightweight ratio of the primary mirror increased from 56% to 66%; and (2) the PV value of the mirror supported by optimum bipod flexures in the horizontal position effectively decreased from 228 to 61 nm.

頁(從 - 到)10382-10391
期刊Applied Optics
出版狀態已出版 - 20 12月 2016


深入研究「Optimization of lightweight structure and supporting bipod flexure for a space mirror」主題。共同形成了獨特的指紋。