Distribution analysis of real ray coordinates on optical system entrance pupil for wave aberration approximation by Zernike polynomials

The optical system is one of the core components for star sensors, whose imaging quality directly influences the performance of star sensors for star detection, thereby determining the attitude control accuracy of spacecrafts. Here, we report a new type of optical system with a catadioptric structure and a large entrance pupil diameter for a 15-magnitude star sensor. It consists of an improved Cassegrain system (R-C system), an aperture correction spherical lens group and a field of view correction spherical lens group. By embedding the secondary mirror of the R-C system into the output surface of the negative spherical lens of the aperture correction spherical lens group, the blocking of incident light is eliminated from the secondary mirror holder. After the structure optimization, the catadioptric optical system (COS) had a spectral range of 450 nm–950 nm, an entrance pupil diameter of 250 mm, a half-diagonal field of view of 1.4° and a focal length of 390 mm. By using theoretical calculations and experimental measurements, it was verified that the COS, with the ability to correct astigmatism, lateral color and distortion, can fulfill the detection of 15-magnitude dark stars.

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Method of calculating the aberrations of soft X-ray and vacuum ultraviolet optical systems

Journal of Synchrotron Radiation ◽

10.1107/s1600577519007823 ◽

2019 ◽

Vol 26 (5) ◽

pp. 1558-1564

Author(s):

Yiqing Cao ◽

Zhijuan Shen ◽

Zhixia Zheng

Keyword(s):

Optical System ◽

Vacuum Ultraviolet ◽

Optical Systems ◽

Third Order ◽

Order Accuracy ◽

X Ray ◽

Plane Symmetric ◽

The Third ◽

Aberration Theory ◽

Ray Coordinates

Based on the the third-order aberration theory of plane-symmetric optical systems, this paper studies the effect on aberrations of the second-order accuracy of aperture-ray coordinates and the extrinsic aberrations of this kind of optical system; their calculation expressions are derived. The resultant aberration expressions are then applied to calculate the aberrations of two design examples of soft X-ray and vacuum ultraviolet (XUV) optical systems; images are compared with ray-tracing results using SHADOW software to validate the aberration expressions. The study shows that the accuracy of the aberration expressions is satisfactory.

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Zernike polynomials for evaluation of optical system in use

10.1117/12.783678 ◽

2007 ◽

Cited By ~ 1

Author(s):

Baozhong Shan ◽

Baoping Guo ◽

Hanben Niu ◽

Shuyan Wang

Keyword(s):

Optical System ◽

Zernike Polynomials

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Spatiotemporal multiplexing method for visual field of view extension in holographic displays with naked eye observation

Opto-Electronics Review ◽

10.1515/oere-2016-0020 ◽

2016 ◽

Vol 24 (3) ◽

Cited By ~ 2

Author(s):

G. Finke ◽

M. Kujawińska ◽

T. Kozacki ◽

W. Zaperty

Keyword(s):

Visual Field ◽

Optical System ◽

Wigner Distribution ◽

Field Of View ◽

Distribution Analysis ◽

Holographic Display ◽

Holographic Imaging ◽

Naked Eye ◽

Holographic Displays ◽

Functional Problems

AbstractIn this paper we propose a method which allows to overcome the basic functional problems in holographic displays with naked eye observation caused by delivering too small images visible in narrow viewing angles. The solution is based on combining the spatiotemporal multiplexing method with a 4f optical system. It enables to increase an aperture of a holographic display and extend the angular visual field of view. The applicability of the modified display is evidenced by Wigner distribution analysis of holographic imaging with spatiotemporal multiplexing method and by the experiments performed at the display demonstrator.

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The Gravity Effect of Mount Design on the Mirror Optical Aberration

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.378.26 ◽

2013 ◽

Vol 378 ◽

pp. 26-32

Author(s):

Yu Chuan Lin ◽

Shenq Tsong Chang ◽

Long Jeng Lee ◽

Ting Ming Huang

Keyword(s):

Finite Element ◽

Structural Analysis ◽

Optical System ◽

Element Model ◽

Zernike Polynomials ◽

Gravity Effect ◽

Analysis And Design ◽

Optical Aberration ◽

Detailed Structural Analysis ◽

The Relationship

Optomechanical analysis and design approaches for development of large mirror mount are presented in this article. The relationship between mirror optical aberration and gravity effect is studied for difference mirror mount designs. A detailed structural analysis of mirror mount design using finite element model combined with Zernike polynomials fitting is found successfully to predict optical aberration in the Cassegrain optical system.

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Effect of defocus on on-axis wave aberration of a centered optical system

Journal of the Optical Society of America A ◽

10.1364/josaa.23.002686 ◽

2006 ◽

Vol 23 (11) ◽

pp. 2686 ◽

Cited By ~ 1

Author(s):

George Smith ◽

David A. Atchison ◽

Sergio Barbero

Keyword(s):

Optical System ◽

Wave Aberration

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Computer Simulation for the Effects of Optical Aberrations on Solar Images Using Karhunen-Loeve polynomials

Iraqi Journal of Science ◽

10.24996/ijs.2021.62.7.35 ◽

2021 ◽

pp. 2463-2473

Author(s):

Raaid Noffi Hassan ◽

Huda Shaker Ali ◽

Wafaa Hikmat Wadee

Keyword(s):

Wave Front ◽

Adaptive Optics ◽

Optical System ◽

Solar Surface ◽

Phase Error ◽

Circular Aperture ◽

Initial State ◽

Optical Aberrations ◽

Wave Aberration ◽

Aperture Function

Numerical simulations were carried out to evaluate the effects of different aberrations modes on the performance of optical system, when observing and imaging the solar surface. Karhunen-Loeve aberrations modes were simulated as a wave front error in the aperture function of the optical system. To identify and apply the appropriate rectification that removes or reduces various types of aberration, their attribute must be firstly determined and quantitatively described. Wave aberration function is well suitable for this purpose because it fully characterizes the progressive effect of the optical system on the wave front passing through the aperture. The Karhunen-Loeve polynomials for circular aperture were used to describe wave front deviations and to predict the initial state of adaptive optics corrections. The results showed that increasing the aberration modes causes an increase in the blurring of the observed image. Also, we conclude that the optical phase error is increased significantly when aperture’s radii are increased.

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