Research of actuator arrangements for shaping aspheric surface

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Research of actuator arrangements for shaping aspheric surface

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- Research of actuator arrangements for shaping aspheric surface
- Optics and Precision Engineering Vol. 17, Issue 2, Pages: 292-300(2009)
- 作者机构：
  
  苏州大学江苏省现代光学技术重点实验室
- 作者简介：
- 基金信息：
- DOI：
  CLC： TH75
- Received：22 February 2008，
  
  Revised：06 May 2008，
  
  Published Online：25 February 2009，
  
  Published：25 February 2009
- 稿件说明：
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曾春梅. 非球面成形致动器排布方法的研究[J]. 光学精密工程, 2009,17(2):292-300

Research of actuator arrangements for shaping aspheric surface[J]. Optics and precision engineering, 2009, 17(2): 292-300.
曾春梅. 非球面成形致动器排布方法的研究[J]. 光学精密工程, 2009,17(2):292-300 DOI：

Research of actuator arrangements for shaping aspheric surface[J]. Optics and precision engineering, 2009, 17(2): 292-300. DOI：

摘要

针对非球面成形中致动器的排布，提出了一种新的方法——非球面梯度法，给出了非球面梯度法的理论依据和非球面梯度的两种公式。以一大口径离轴超薄球面镜为例，用非球面梯度法的两种公式求出了致动器排布初始解，进行了主动成形有限元分析和面形误差计算，研究了致动器排布的优化，完成了满足面形精度的最终解。比较了非球面梯度排布、正方形排布和环形排布三种方法在面形校正、致动器个数及间距等方面的差异。分析结果显示，用非球面梯度平均值公式求出的初始解与最终解最为接近，符合非球面梯度变化与致动器面密度的关系，而致动器排布优化则能进一步减少致动器数量和面形误差；非球面梯度法在减少致动器个数及修正面形方面比正方形排布和环形排布具有更大的优势，更适合在非球面成形领域用于求解致动器排布初始解。

Abstract

First of all a new method

namely aspheric gradient method

is presented to determine actuator arrangements for shaping aspheric surface

and the theoretical analysis and two calculating formulas of this method are described. Secondly

based on an example of off-axis ultra-thin large-aperture spherical mirror

the initial solution of actuator arrangements is given by the aspheric gradient method

and the finite element analysis and the surface errors for shaping aspheric surface are accomplished. Thirdly

the optimizations of actuator arrangement are done. Finally

three methods of actuator arrangements

namely aspheric gradient

square and circular methods are compared using finite element analysis. The results show that the initial solution based on average value of aspheric gradient is most alike with the final solution

and it is in accord with the relation that the greater the aspheric gradient the greater the surface density of actuator arrangements. Meantime

the optimization can also further reduce the number of actuators and further improve the form errors. The aspheric gradient method has more advantages than the square and annulus methods

which makes it suitable for incorporation in the field of the shaping aspheric surface to determine the initial solution of actuator arrangements.

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