Off-Axis Aspheric Surfacing Using Sub-Aperture Tools

Yunpeng Feng; Xiaoyan Qiao; Haobo Cheng; Hon Yuen Tam

doi:10.1080/15599612.2013.879502

Off-Axis Aspheric Surfacing Using Sub-Aperture Tools

Yunpeng Feng, Xiaoyan Qiao, Haobo Cheng^*, Hon Yuen Tam

^*Corresponding author for this work

School of Optics and Photonics

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

1 Citation (Scopus)

Abstract

The off-axis aspheric surface used in modern optical systems widely can obtain nearly perfect quality, realize both small packet-size and low-mass, and avoid the central obscuration. But it is difficult to fabricate because of asymmetry. There are some key technologies during the testing and fabrication of off-axis asphere. In this article, we proposed a method of the best fit sphere based on non-negative minimized removal criterion. And a measured data fitting algorithm was presented to estimate the geometry parameters of off-axis aspheric surface. Then an off-axis mirror was fabricated, and the interferometrically measured data was corrected to eliminate the distortion introduced by null compensator in every run. Finally, the surface error of off-axis mirror reduced to pv = 0.372λ, rms = 0.046λ, the surface roughness reached 0.72 nm. These methods mentioned in the article are suitable for off-axis aspheric optics.

Original language	English
Pages (from-to)	235-243
Number of pages	9
Journal	International Journal of Optomechatronics
Volume	7
Issue number	4
DOIs	https://doi.org/10.1080/15599612.2013.879502
Publication status	Published - Oct 2013

Keywords

best-fit sphere
distortion
geometry parameters estimate
non-negative minimized removal criterion
null compensator
off-axis aspheric surface

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10.1080/15599612.2013.879502

Cite this

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title = "Off-Axis Aspheric Surfacing Using Sub-Aperture Tools",

abstract = "The off-axis aspheric surface used in modern optical systems widely can obtain nearly perfect quality, realize both small packet-size and low-mass, and avoid the central obscuration. But it is difficult to fabricate because of asymmetry. There are some key technologies during the testing and fabrication of off-axis asphere. In this article, we proposed a method of the best fit sphere based on non-negative minimized removal criterion. And a measured data fitting algorithm was presented to estimate the geometry parameters of off-axis aspheric surface. Then an off-axis mirror was fabricated, and the interferometrically measured data was corrected to eliminate the distortion introduced by null compensator in every run. Finally, the surface error of off-axis mirror reduced to pv = 0.372λ, rms = 0.046λ, the surface roughness reached 0.72 nm. These methods mentioned in the article are suitable for off-axis aspheric optics.",

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AU - Feng, Yunpeng

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AU - Cheng, Haobo

AU - Tam, Hon Yuen

PY - 2013/10

Y1 - 2013/10

N2 - The off-axis aspheric surface used in modern optical systems widely can obtain nearly perfect quality, realize both small packet-size and low-mass, and avoid the central obscuration. But it is difficult to fabricate because of asymmetry. There are some key technologies during the testing and fabrication of off-axis asphere. In this article, we proposed a method of the best fit sphere based on non-negative minimized removal criterion. And a measured data fitting algorithm was presented to estimate the geometry parameters of off-axis aspheric surface. Then an off-axis mirror was fabricated, and the interferometrically measured data was corrected to eliminate the distortion introduced by null compensator in every run. Finally, the surface error of off-axis mirror reduced to pv = 0.372λ, rms = 0.046λ, the surface roughness reached 0.72 nm. These methods mentioned in the article are suitable for off-axis aspheric optics.

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KW - geometry parameters estimate

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Off-Axis Aspheric Surfacing Using Sub-Aperture Tools

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Keywords

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