Research on the particular temperature-induced surface shape of a National Ignition Facility deformable mirror

Qiao Xue; Lei Huang; Ping Yan; Mali Gong; Zexin Feng; Yuntao Qiu; Tenghao Li; Guofan Jin

doi:10.1364/AO.52.000280

Research on the particular temperature-induced surface shape of a National Ignition Facility deformable mirror

Qiao Xue, Lei Huang^*, Ping Yan, Mali Gong, Zexin Feng, Yuntao Qiu, Tenghao Li, Guofan Jin

^*Corresponding author for this work

Tsinghua University

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

We investigate the changes in the shape of a deformable mirror used at the National Ignition Facility caused by differences in temperature between the working environment and the mounting temperature of the mirror. In general, the temperature-induced profile change of the mirror is dominated by a few low-order aberrations, which mainly result in defocus. However, after these low-order distortions are corrected, there remain special, higher-order, surface distortions caused by the particular arrangement, construction, and mounting of the mirror actuators. This work analyzes these special aberrations, and their dependence on the particular actuator design, using the finite element method. Experiments are carried out to verify the computational results, and finally, design considerations to help minimize the temperature-induced high-order aberrations are suggested.

Original language	English
Pages (from-to)	280-287
Number of pages	8
Journal	Applied Optics
Volume	52
Issue number	2
DOIs	https://doi.org/10.1364/AO.52.000280
Publication status	Published - 10 Jan 2013
Externally published	Yes

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AU - Xue, Qiao

AU - Huang, Lei

AU - Yan, Ping

AU - Gong, Mali

AU - Feng, Zexin

AU - Qiu, Yuntao

AU - Li, Tenghao

AU - Jin, Guofan

PY - 2013/1/10

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N2 - We investigate the changes in the shape of a deformable mirror used at the National Ignition Facility caused by differences in temperature between the working environment and the mounting temperature of the mirror. In general, the temperature-induced profile change of the mirror is dominated by a few low-order aberrations, which mainly result in defocus. However, after these low-order distortions are corrected, there remain special, higher-order, surface distortions caused by the particular arrangement, construction, and mounting of the mirror actuators. This work analyzes these special aberrations, and their dependence on the particular actuator design, using the finite element method. Experiments are carried out to verify the computational results, and finally, design considerations to help minimize the temperature-induced high-order aberrations are suggested.

AB - We investigate the changes in the shape of a deformable mirror used at the National Ignition Facility caused by differences in temperature between the working environment and the mounting temperature of the mirror. In general, the temperature-induced profile change of the mirror is dominated by a few low-order aberrations, which mainly result in defocus. However, after these low-order distortions are corrected, there remain special, higher-order, surface distortions caused by the particular arrangement, construction, and mounting of the mirror actuators. This work analyzes these special aberrations, and their dependence on the particular actuator design, using the finite element method. Experiments are carried out to verify the computational results, and finally, design considerations to help minimize the temperature-induced high-order aberrations are suggested.

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Research on the particular temperature-induced surface shape of a National Ignition Facility deformable mirror

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