1 / 2017-08-15 15:17:38
The design research of the test support structure for a large-diameter main mirror
mirror measurement support structure,optical axis horizontal,the variation of mirror surface shape,main mirror surface shape measurement
Abstract Pending
Jiao-Hong SHI / Beijing Institute of Space Mechanics&Electricity
Shi-Kui LUO / Beijing Institute of Space Mechanics&Electricity
Lu Tang / Beijing Institute of Space Mechanics&Electricity
Hai-Pei REN / Beijing Institute of Space Mechanics&Electricity
Ting-Yun LUO / Beijing Institute of Space Mechanics&Electricity
YI-Feng MAO / Beijing Institute of Space Mechanics&Electricity
Abstract: The accuracy of the main mirror surface shape measurement on ground is vital because of the importance of the main mirror in a optical remote sensor. Generally speaking, the main effects of the mirror surface shape measurement accuracy are due to the optical measurement system and support structure. The aim of this thesis is researching the design of the mirror shape measurement support structure. The main mirror discussed in this paper equipped with 650mm diameter. The requirements of PV and RMS for surface shape are no more than 0.136λand 0.017λ respectively while λ is determined as 632.8nm. At present, the on ground adjustment methods of camera lens are optical axis horizontal and gravity discharging. In order to make the same condition between camera lens adjustment and main mirror operating, the surface shape measurement of main mirror should keep optical axis horizontal condition for mirror either.
The support structure of the mirror introduced in this paper is able to extremely reduce the surface shape distortion caused by the effects of support structure mostly. According to the simulating calculation, the variation of main mirror surface shape is no more than 0.001λ. The result is acceptable for camera adjustment. Based on the measurement support structure mentioned before, the main mirror could rotate 360-degree under the condition of optical axis horizontal; the four-direction measurement for mirror is achieved. Eliminate the effects of ground gravity for surface shape measurement data, the four-direction mirror shape error is controlled no more than 0.001λ on this support structure which calculated by simulation.
Key words: main mirror surface shape measurement, mirror measurement support structure, optical axis horizontal, the variation of mirror surface shape
Important Date
  • Conference Date

    Oct 28

    2017

    to

    Oct 30

    2017

  • Aug 15 2017

    Abstract Submission Deadline

  • Sep 15 2017

    Draft paper submission deadline

  • Oct 30 2017

    Registration deadline

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China Instrument Society
International Society of Optics and Photonics
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