Your search keyword '"aspheric surface"' showing total 160 results

1. Quantitative design for compensator in aspheric non-null interferometry with extended measurement range

Author

Wang, Tao, Han, Xiting, Li, Yanqiu, and Liu, Ke

Published

2025

2. A Long-Range Lidar Optical Collimation System Based on a Shaped Laser Source.

Author

Feng, Shanshan, Mu, Yuanhui, Liu, Luyin, Liu, Ruzhang, Cai, Enlin, and Wang, Shuying

Subjects

SEMICONDUCTOR lasers, SYSTEMS design, LIDAR, ANGLES, LASERS

Abstract

Semiconductor near-infrared lasers have been widely used in lidar systems. However, various source types have different shapes and divergence angles, causing more difficulties for long-distance detection. In this paper, an optical collimation system is designed for a long-range lidar system with a shaped laser source (the wavelength is 905 nm, the emitted spot size is 50 µm long by 10 µm wide, and the divergence angles are 33°and 15°, respectively, which are unconventional). On the basis of the traditional method of aspheric lens setting, a pair of asymmetric aspherical lenses were designed using an extended polynomial. The simulation results show that the spot shapes are all close to circular from 100 mm to 30 m and the spot size always remains the same value. The corrected optical system is put into the designed lidar system for verification. It results show that the average divergence angles in the long and short axis directions are 0.06°and 0.07°, which satisfy the project requirements. This optical system designed provides a collimation scheme and expands the application of vehicle-mounted lidar in the field of long-range detection. [ABSTRACT FROM AUTHOR]

Published

2024

3. Measurement techniques for aspheric surface parameters

Author

Qun Hao, Yiming Liu, Yao Hu, and Xin Tao

Subjects

measurement technique, aspheric surface, parameter, Manufactures, TS1-2301, Applied optics. Photonics, TA1501-1820

Abstract

Aspheric surfaces are widely used in advanced optical instruments. Measuring the aspheric surface parameters (ASPs) with high accuracy is vital for manufacturing and aligning optical aspheric surfaces. This paper provides a review of various techniques for measuring ASPs and discusses the advantages/disadvantages of these approaches. The aim of this review is to contribute to advancements in the fabrication and testing of aspheric optical elements and their practical applications in diverse fields.

Published

2023

4. A Normal Displacement Model and Compensation Method of Polishing Tool for Precision CNC Polishing of Aspheric Surface

Author

Yongjie Shi, Min Su, Qianqian Cao, and Di Zheng

Subjects

displacement compensation, CNC polishing, aspheric surface, deformation, Mechanical engineering and machinery, TJ1-1570

Abstract

The position accuracy of the polishing tool affects the surface quality of the polished aspheric surface. The contact deformation among the polishing tool, abrasives, and aspheric part can cause a displacement, which, in turn, will cause a position error of the polishing tool, which will lead to a significant change in the polishing force. In order to resolve this error, this paper proposed a method of normal displacement compensation for a computer numerical controlled (CNC) polishing system by controlling the polishing force. Firstly, the coupling principle between the polishing force and the position of the polishing tool is expounded, and the relationship between normal displacement and deformation is analyzed. Based on Hertz’s theory, a model of normal displacement is established. Then, on the basis of the decoupled polishing system developed, a normal displacement compensation method was proposed. Finally, a group of comparative experiments was carried out to verify the effectiveness of the proposed method. Compared with no displacement compensation, when the part was polished with the normal displacement compensation method, the value of roughness decreased from 0.4 µm to 0.21 µm, and the unevenness coefficient of surface roughness decreased from 112.5% to 19%. The experimental results show that the polishing quality is improved greatly, and the aspheric surfaces can be polished more uniformly with the method proposed in this paper.

Published

2024

5. A Long-Range Lidar Optical Collimation System Based on a Shaped Laser Source

Author

Shanshan Feng, Yuanhui Mu, Luyin Liu, Ruzhang Liu, Enlin Cai, and Shuying Wang

Subjects

lidar, optical system design, aspheric surface, long distance, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Semiconductor near-infrared lasers have been widely used in lidar systems. However, various source types have different shapes and divergence angles, causing more difficulties for long-distance detection. In this paper, an optical collimation system is designed for a long-range lidar system with a shaped laser source (the wavelength is 905 nm, the emitted spot size is 50 µm long by 10 µm wide, and the divergence angles are 33°and 15°, respectively, which are unconventional). On the basis of the traditional method of aspheric lens setting, a pair of asymmetric aspherical lenses were designed using an extended polynomial. The simulation results show that the spot shapes are all close to circular from 100 mm to 30 m and the spot size always remains the same value. The corrected optical system is put into the designed lidar system for verification. It results show that the average divergence angles in the long and short axis directions are 0.06°and 0.07°, which satisfy the project requirements. This optical system designed provides a collimation scheme and expands the application of vehicle-mounted lidar in the field of long-range detection.

Published

2024

6. Determination Position and Initial Value of Aspheric Surface for Fisheye Lens Design.

Author

Fan, Lirong, Yan, Ketao, Qiao, Guodong, Lu, Lijun, Gao, Shuyuan, and Zheng, Huadong

Subjects

NUMERICAL functions, GENETIC algorithms, OPTICAL aberrations

Abstract

The aspheric surface is a commonly used method to improve the imaging quality of the fisheye lens, but it is difficult to determine the position and initial value. Based on the wave aberration theory of the plane-symmetric optical system, a method of using an aspheric surface to design a fisheye lens is proposed, which can quickly determine the appropriate aspheric surface to improve the imaging performance. First, the wave aberration of each optical surface of the fisheye lens is calculated and its aberration characteristics are analyzed. Then, a numerical evaluation function is reported based on the aberration distribution of the fisheye lens on the image plane. According to the functional relationship between the evaluation function and the aspheric coefficient, the position of the aspheric surface and the initial value of the aspheric coefficient can be calculated. Finally, the adaptive and normalized real-coded genetic algorithm is used as the evaluation function to optimize the fisheye lens using an aspheric surface. The proposed method can provide an effective solution for designing a fisheye lens using an aspheric surface. [ABSTRACT FROM AUTHOR]

Published

2023

7. Static and Dynamic Error Analysis of Swing Arm Profile Measurement

Author

Zhang, Jianhua, Li, Mengjuan, Li, ChunLin, Urbach, H. Paul, editor, and Jiang, Huilin, editor

Published

2023

8. Design and Optical Analysis of a Refractive Aspheric Intraocular Lens with Extended Depth of Focus

Author

Kunqi Li, Xiaoqin Chen, Yayan Bian, Yuwei Xing, Xiaolan Li, Dongyu Liu, and Yongji Liu

Subjects

optical design, intraocular lens, aspheric surface, extended depth of focus (EDoF), pseudophakic eye, modulation transfer function (MTF), Optics. Light, QC350-467, Applied optics. Photonics, TA1501-1820

Abstract

To obtain a continuous range of clear vision for pseudophakic eyes, a design of intraocular lens (IOL) with extended depth of focus (EDoF) was proposed. The IOL was optimized with a multi-configuration approach based on a pseudophakic eye model and the optical performances of the designed IOL were analyzed. The modulation transfer function (MTF) values remain above 0.2 at 50 lp/mm for object distance ranging from 0.35 m to infinity in both photopic vision and mesopic vision over a field of 4°. The optical performances remain stable when the pupil diameter changes from 2.25 mm to 5 mm. Besides, the presented theoretical analyses show the designed IOL has good optical performances for polychromatic light and corneal asphericity. The above shows that the IOL exhibits an excellent ability for pseudophakic eyes to see the object in a continuous range of distance.

Published

2023

9. 非球面磨削抛光机床插补原理解析与速度寻优算法研究.

Author

胡月, 秦芳, and 王红

Abstract

Copyright of Machine Tool & Hydraulics is the property of Guangzhou Mechanical Engineering Research Institute (GMERI) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

10. Trajectory Optimization based on Genetic-Neural Network Algorithm.

Author

Chi, Huanzhao and Yu, Bo

Subjects

TRAJECTORY optimization, ALGORITHMS, OPTICAL properties, SURFACE properties, HUMAN fingerprints

Abstract

With the development of science and technology, aspherical surface has become an indispensable component in optical system. However, the aspheric surface has more complex optical properties than the spherical surface, so it restricts the rapid development of aspheric surface. In this paper, the main problem of aspherical machining is analyzed, which is"Trajectory control", and the unique optical properties of aspherical surface are analyzed, a trajectory control algorithm based on genetic-BP neural network is proposed to solve the trajectory control in aspheric forming. The method is proved to be feasible and effective. [ABSTRACT FROM AUTHOR]

Published

2023

11. Calculation model of the concave mirror depth in gas jet forming of the mirror blank.

Author

Fu, Weijie, Jiang, Weiwen, and Zhang, Xinming

Subjects

*OPTICAL mirrors, *MIRRORS, *SURFACE tension, *GASES, *DATA analysis

Abstract

The surface accuracy and quality of the mirror blank determine the performance of the optical mirror, so it is essential to explore a simple and effective way to process the mirror blank. Gas jet forming is a simple and efficient way of forming optical surfaces. However, the key to accurately forming mirror blanks is establishing the relationship between the gas jet parameters and the resulting surface shape. Therefore, several experiments were carried out in this study to develop the relevant models to investigate the above issues. The experimental data analysis found that the surface tension of the viscous fluid being processed impacts the shape of the surface formed by the gas jet. Therefore, the new model for predicting the surface shape of gas jets was developed by refining the Blanks and Chandrasekhara model by adding surface tension. The prediction error of the new model for the depth of the surface formed by the gas jet is in the range of 0.0497–0.833 mm, much smaller than the uncorrected model. [ABSTRACT FROM AUTHOR]

Published

2023

12. Design and Optical Analysis of a Refractive Aspheric Intraocular Lens with Extended Depth of Focus.

Author

Li, Kunqi, Chen, Xiaoqin, Bian, Yayan, Xing, Yuwei, Li, Xiaolan, Liu, Dongyu, and Liu, Yongji

Subjects

INTRAOCULAR lenses, TRANSFER functions, OPTICAL properties, POLYCHROMATORS, CORNEAL sensitivity

Abstract

To obtain a continuous range of clear vision for pseudophakic eyes, a design of intraocular lens (IOL) with extended depth of focus (EDoF) was proposed. The IOL was optimized with a multi-configuration approach based on a pseudophakic eye model and the optical performances of the designed IOL were analyzed. The modulation transfer function (MTF) values remain above 0.2 at 50 lp/mm for object distance ranging from 0.35 m to infinity in both photopic vision and mesopic vision over a field of 4°. The optical performances remain stable when the pupil diameter changes from 2.25 mm to 5 mm. Besides, the presented theoretical analyses show the designed IOL has good optical performances for polychromatic light and corneal asphericity. The above shows that the IOL exhibits an excellent ability for pseudophakic eyes to see the object in a continuous range of distance. [ABSTRACT FROM AUTHOR]

Published

2023

13. Surface generation mechanism of the rotary ultrasonic vibration–assisted grinding of aspheric glass ceramics.

Author

Sun, Guoyan, Shi, Feng, Zhang, Bowen, Zhao, Qingliang, Zhang, Wanli, Wang, Yongjie, and Tian, Ye

Subjects

*ULTRASONICS, *OPTICAL glass, *GLASS, *GRINDING wheels, *SURFACE roughness, *CERAMICS

Abstract

A serious challenge faced by manufacturers of large-aperture aspheric optical components of glass ceramics is the long processing time. Ultrasonic vibration–assisted grinding (UVG) allows one to effectively shorten the subsequent polishing process by several times, which is essential for grinding of aspheric components. However, the surface creation mechanism of UVG-treated glass ceramics is rarely studied. Herein, rotary ultrasonic vibration–assisted vertical grinding (RUVG) and parallel grinding (RUPG) are applied to polish the aspheric glass ceramics. Particular attention is paid to the surface formation mechanism of UVG-processed ceramics. The single-grain kinematic functions are created and the contact characteristics between the grinding wheel and aspheric surface are analyzed for the two UVG methods in terms of contact area, velocity, and trajectory. In addition, aspheric grinding texture is simulated and comparative experiments are conducted correspondingly. According to the results, the rotary ultrasonic vibration mainly influences the microscopic grinding marks. Besides, the aspheric surface form accuracy of Pt and RMS value in RUVG is 2.16 and 3.71 times lower than those in RUPG, respectively, whereas the surface roughness–related parameters (mean deviation Sa and maximum height of profile Sz) in RUVG are 6.36% and 4.56% higher than those in RUPG. This indicates that RUVG is more suitable for high precision and efficiency grinding of the aspheric surface than RUPG due to the fact that the polishing depth is primarily determined by surface form accuracy rather than surface roughness. Thus, the current research enables an in-depth understanding of surface generation mechanism in rotary ultrasonic vibration–assisted grinding, pointing out its benefits in the high-efficiency aspheric surface manufacturing. [ABSTRACT FROM AUTHOR]

Published

2023

14. Determination Position and Initial Value of Aspheric Surface for Fisheye Lens Design

Author

Lirong Fan, Ketao Yan, Guodong Qiao, Lijun Lu, Shuyuan Gao, and Huadong Zheng

Subjects

fisheye lens design, wave aberration theory, plane-symmetric optical system, aspheric surface, aberrations balance, Applied optics. Photonics, TA1501-1820

Abstract

The aspheric surface is a commonly used method to improve the imaging quality of the fisheye lens, but it is difficult to determine the position and initial value. Based on the wave aberration theory of the plane-symmetric optical system, a method of using an aspheric surface to design a fisheye lens is proposed, which can quickly determine the appropriate aspheric surface to improve the imaging performance. First, the wave aberration of each optical surface of the fisheye lens is calculated and its aberration characteristics are analyzed. Then, a numerical evaluation function is reported based on the aberration distribution of the fisheye lens on the image plane. According to the functional relationship between the evaluation function and the aspheric coefficient, the position of the aspheric surface and the initial value of the aspheric coefficient can be calculated. Finally, the adaptive and normalized real-coded genetic algorithm is used as the evaluation function to optimize the fisheye lens using an aspheric surface. The proposed method can provide an effective solution for designing a fisheye lens using an aspheric surface.

Published

2023

15. On-machine measurement and compensation machining for ultra-precision cutting of optical aspheric surface

Author

Liang ZHANG, Xipeng GUO, Dingwen WANG, Wen XU, Jian LIU, Shuai HUANG, and Shaohui YIN

Subjects

aspheric surface, ultra-precision machining, on-machine measurement, compensation machining, Materials of engineering and construction. Mechanics of materials, TA401-492, Mechanical engineering and machinery, TJ1-1570

Abstract

An in-situ measurement device combining contact probe and capacitive displacement sensor is developed. An aspherical measurement and compensation machining software is also developed. The single point diamond ultra precision cutting experiments for C3604 brass spherical and aspherical surface are carried out. The in-situ measurement and compensation machining experiments are also carried out. After compensation machining, the spherical surface form accuracy PV reaches 231.4 nm, and the aspheric surface form accuracy PV reaches 206.3 nm. Compared with the off-line measurement results, the difference between the results is 3.0 nm, 7.0 nm respectively, the measuring accuracy of the in-situ measurement system and the validity of compensation machining are verified.

Published

2022

16. Use of Six Plastic Lenses to Design Lens Module with 13 Million Pixels for Application in Cellphone Camera Module.

Author

Shuai He, Kao-Chi Chen, Chao-Ming Hsu, Cheng-Fu Yang, and Guoxiang Peng

Subjects

COMPLEMENTARY metal oxide semiconductors, CAMERA phones, TRANSFER functions, DIGITAL cameras, SIMULATION software, CELL phones, PIXELS, PLASTICS

Abstract

The Zemax optical simulation program was used to design a multilens configuration and further optimize the design of a lens module using six plastic lenses and 12 aspheric surfaces. The lens module with 13 million pixels was designed for application in a cellphone camera module. The basic specifications of the design with six plastic lenses were established and matched with those of an OV13853 complementary metal oxide semiconductor (CMOS) chip, and the minimum imaging circle radius of the designed optical lens module based on OV13853 was 3.029 mm. The optimized mirror aspheric coefficients of surfaces #1–#12 of the designed lens module and the aspheric coefficients of each mirror surface were increased to the 18th order. The optimal parameters for the designed lens module, including the radiuses, thicknesses, conics, and materials used, are presented in this paper. The modulation transfer function (MTF) curves, the ranges of field curvature, the maximum horizontal chromatic aberration, and the maximum range of Seidel aberration were also found. [ABSTRACT FROM AUTHOR]

Published

2022

17. Whole Elliptical Surface Polishing Using a Doughnut-Shaped MCF Polishing Tool with Variable Tilt Angle.

Author

Feng, Ming, Lei, Yang, Chen, Zhixiang, Zhang, Xianglei, Chen, Xizhang, and Wang, Youliang

Subjects

DOUGHNUTS, GRINDING & polishing, ROUGH surfaces, SURFACE roughness, ANGLES, SLURRY, MAGNETIC fluids

Abstract

Elliptical elements are essential optical surfaces for modifying optical systems. For polishing the whole elliptical surface using doughnut-shaped MCF polishing tool with variable tilt angle, an experimental investigation was conducted in this work. Firstly, a flat workpiece was polished to determine the polishing feasibility. It was found that the middle portion of the polishing tool had optimal ability to remove materials, and the surface roughness Sa at the material removal peak was changed from 134 nm to 17.5 nm within 50 min of polishing. A smoother surface could be obtained using MCF2 slurry and MCF3 slurry, but the use of MCF1 slurry resulted in a rough surface. Then, the effects of working gap h, revolution speed of MCF polishing tool and polishing time on the polishing results were tested to study the polishing characteristics. Sa 9.6 nm and glossiness 278 Gu were obtained, and form error improved from 2.3 μm to 1.3 μm. Finally, the MCF polishing tool was dried to observe the microstructure of the MCF polishing tool after polishing. Abrasive particles were distributed evenly after polishing. It was seen that the abrasive particles were grabbed by the ferric clusters, and the α-celluloses were interleaved between the clusters. [ABSTRACT FROM AUTHOR]

Published

2022

18. Design of a stigmatic lens with minimal Fresnel losses

Author

L.L. Doskolovich, D.A. Bykov, G.I. Greisukh, and Y.S. Strelkov

Subjects

lens, aspheric surface, fresnel losses, abbe sine condition, Information theory, Q350-390, Optics. Light, QC350-467

Abstract

A method for designing double aspheric lenses enabling minimal Fresnel losses in the class of stigmatic lenses is considered. Minimization of the Fresnel losses is provided by ensuring equal ray-deviation angles on both aspheric surfaces of the lens. The design of the lens is reduced to the integration of an explicit ordinary differential equation. Simple analytical approximations for the lens profiles are also presented.

Published

2021

19. Review on Non-spherical Surface Detection Technology

Author

Yu, Bo, Li, Yan, Li, Xiaodong, Luo, Shijun, Li, Haibo, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Xu, Zheng, editor, Choo, Kim-Kwang Raymond, editor, Dehghantanha, Ali, editor, Parizi, Reza, editor, and Hammoudeh, Mohammad, editor

Published

2020

20. Review on ultra-precision bonnet polishing technology.

Author

Wu, Ziwei, Shen, Jianyun, Peng, Yunfeng, and Wu, Xian

Subjects

*MILITARY readiness, *THERAPEUTICS

Abstract

With the development of science and technology, in the fields of national defense, aerospace, medical treatment, automobile, and so on, the demands for ultra-precision parts and molds with complex surfaces such as aspheric or free-form surface are becoming more and more common and demanding. Bonnet polishing technology, which uses a new polishing tool and special form of motion, is a high-precision and high-efficiency optical component processing method. This method is especially suitable for the processing of aspherical and free-form surfaces and has broad application prospects. This paper first introduced the basic principle and development process of bonnet polishing technology. Then the key technology and its state-of-the-art bonnet polishing technology were analyzed. Finally, the development of bonnet polishing technology was summarized and prospected. [ABSTRACT FROM AUTHOR]

Published

2022

21. Optical structure design of virtual reality head-mounted display with large-field.

Author

ZHUANG Yabao, ZHU Xiangbing, LIU Jie, and LI Pengfei

Abstract

In order to meet the needs of users for large-field of view angle and high resolution of virtual reality head-mounted displays, the initial structure of the optical system was calculated by using reverse design method, and the optical design software was used for simulation analysis optical structure of coaxial large field of view virtual reality head-mounted display. The results show that three aspheric lenses are used in each channel, and the full field angle is 90°, the exit pupil diameter is 8mm, the exit pupil distance is 13mm, the modulation transfer function is greater than 0.3 at Nyquist frequency of 10.581p/mm, and the maximum distortion is 6.1%, respectively. Compared with the reference, the resolution is higher, the distortion is reduced and aberration balance is reasonable. The design provides a reference for optimizing the optical structure of large field of view head-mounted display. [ABSTRACT FROM AUTHOR]

Published

2022

22. An equivalent-sphere-based grinding of large aspheric and spherical surfaces.

Author

Xu, Liming, Hu, Dejin, Dong, Wenyou, Xie, Chaolong, and Liu, Mengqi

Subjects

*DYNAMIC stiffness, *FRETTING corrosion, *MACHINE tools, *DEGREES of freedom, *GRINDING wheels, *RAMSEY numbers

Abstract

This study investigated a novel methodology called equivalent-sphere swing grinding (ESSG) for the cup wheel grinding of large revolving aspheric and spherical surfaces. The method is proposed to improve the machining efficiency and reduce the complexity of machine tools. Different from the traditional single-point grinding of aspheric surfaces, the ESSG method developed a novel multipoint grinding process to increase the material removal rate (MRR) and reduce the wear of single abrasive grain. A structure with few axes and a wheel spindle with multi degrees of freedom simplifies the machine tools and improves the machine dynamic stiffness. The grinding process was modeled, and the feasibility for grinding aspheric and spherical surfaces was verified. The criteria for ESSG-based grinding method were established, and the wheel position and posture models were derived. The cup wheel posture was proved to have multiple options for grinding a revolving surface, in which the optimal posture can achieve the maximum number of abrasive particles involved in grinding and maximize MRR under the same wheel wear. The numerical trajectory control parameters were calculated, and a hierarchical grinding method is proposed. An experiment was conducted on a developed grinding machine prototype. The results indicate that the proposed methodology can efficiently grind paraboloid surfaces and can be extended to grinding other revolving aspheric and spherical surfaces. [ABSTRACT FROM AUTHOR]

Published

2022

23. A spiral path generation method for achieving uniform material removal depth in aspheric surface polishing.

Author

Qu, Xingtian, Liu, Qinglong, Wang, Hongyi, Liu, Haizhong, and Sun, Huichao

Subjects

*CURVED surfaces, *SURFACE roughness, *GRINDING & polishing, *SEARCH algorithms, *CURVATURE, *ACCOUNTING methods

Abstract

The uniformity of material removal can affect the profile accuracy and surface quality of the polished curved surface. In the aspheric surface polishing, the Archimedes spiral path may result in poor consistency of material removal due to the changes of the surface curvature and the projection path interval. Firstly, under the constant process parameters, the material removal characteristic is inconsistent throughout the aspheric surface due to the curvature change characteristics of the surface. Secondly, the projection path interval variations on the surface may lead to the inconsistency of the adjacent paths overlapping. In this study, a new path called optimized Archimedes spiral path is proposed to ensure the uniform material removal depth in aspheric surface polishing. The path generation method takes into account the effect of the surface curvature variations on material removal and the effect of the path interval on the adjacent paths overlapping. First, the model of material removal profile is proposed based on the Preston equation. Subsequently, a path interval search algorithm based on material removal profile is developed to generate the optimized Archimedes spiral path. Lastly, a group of comparative experiments between the traditional path and the optimized path was conducted to verify the effectiveness of the proposed path generation method. Compared with the traditional path, the fluctuation of the material removal depth attributed to the optimized path is reduced by 49.7%. It indicates that the proposed path generation method is effective for improving the uniformity and consistency of material removal depth in aspheric surface polishing. Furthermore, the surface roughnesses of the two workpieces polished by the traditional path and optimized path are 0.9493 μm and 0.8893 μm, respectively. The reduction in surface roughness indicates that the uniform material removal depth can improve surface quality. [ABSTRACT FROM AUTHOR]

Published

2022

24. Research status and progress of non-constant aberration aspherical IOL

Author

Yu-Qi Liu, Jing Wang, and Jin-Song Zhang

Subjects

cataract, intraocular lens, non-constant aberration, aspheric surface, Ophthalmology, RE1-994

Abstract

With the continuous development of cataract surgery and intraocular lens(IOL), the evaluation of visual quality after IOL implantation has become a research hotspot, and aberration is an important factor that affecting visual quality. After more than 60y of development, IOL has made great improvement in optical design. Due to the fact that conventional spherical IOL has a positive spherical aberration and cannot correct the positive spherical aberration existing in the normal human cornea, it is improved to an aspherical IOL having a negative spherical aberration and a zero spherical aberration. The former can correct the cornea positive spherical aberration, improve the contrast sensitivity and improve visual quality. However, if the optical position does not match, the formation of other higher-order aberrations will have greater impact on visual effects. Although the latter is well tolerated to tilt and decentration, it still cannot compensate for the positive aberration from the cornea. The advent of the non-constant aberration IOL provides a new way for cataract surgeons to solve this problem. In this paper, the concept of aberration, the design principle and advantages and disadvantages of different kinds of aspheric IOL, as well as the observation of clinical application effect of non-constant aberration aspheric IOL are discussed.

Published

2019

25. Whole Elliptical Surface Polishing Using a Doughnut-Shaped MCF Polishing Tool with Variable Tilt Angle

Author

Ming Feng, Yang Lei, Zhixiang Chen, Xianglei Zhang, Xizhang Chen, and Youliang Wang

Subjects

slurry polishing, magnetic field, magnetic compound fluid, high precision, aspheric surface, Science

Abstract

Elliptical elements are essential optical surfaces for modifying optical systems. For polishing the whole elliptical surface using doughnut-shaped MCF polishing tool with variable tilt angle, an experimental investigation was conducted in this work. Firstly, a flat workpiece was polished to determine the polishing feasibility. It was found that the middle portion of the polishing tool had optimal ability to remove materials, and the surface roughness Sa at the material removal peak was changed from 134 nm to 17.5 nm within 50 min of polishing. A smoother surface could be obtained using MCF2 slurry and MCF3 slurry, but the use of MCF1 slurry resulted in a rough surface. Then, the effects of working gap h, revolution speed of MCF polishing tool and polishing time on the polishing results were tested to study the polishing characteristics. Sa 9.6 nm and glossiness 278 Gu were obtained, and form error improved from 2.3 μm to 1.3 μm. Finally, the MCF polishing tool was dried to observe the microstructure of the MCF polishing tool after polishing. Abrasive particles were distributed evenly after polishing. It was seen that the abrasive particles were grabbed by the ferric clusters, and the α-celluloses were interleaved between the clusters.

Published

2022

26. Optical design of light and small head mounted display.

Author

LI Penfei, ZHU Xiangbing, and CHEN Zhuangzhuang

Abstract

Aiming at the problems of the current head-mounted display with large volume, large weight, and small field of view, in order to meet the user's demand for light and small head-mounted displays, the Ranston eyepiece was used as the initial structure, and then was optimized by using ZEMAX software. Image quality evaluation and tolerance analysis were then carried out. The result shows that each channel in the binocular system uses only two lenses, the maximum field of view of the optical structure is 80°, the total length is 54. 24mm, the maximum distortion is less than 4. 7%, the weight of the two lenses is less than 11. 5 g. Compared with related research, the field angle and the number of pixels are increased, the volume is reduced, and the modulation transfer function is improved. The head-mounted display has certain market prospects, and can provide a reference for the optical design of the light and small head-mounted display. [ABSTRACT FROM AUTHOR]

Published

2021

27. Effect of the components of Magnetic Compound Fluid (MCF) slurry on polishing characteristics in aspheric-surface finishing with the doughnut-shaped MCF tool.

Author

Feng, Ming, Wu, Yongbo, Wang, Youliang, Zeng, Jiang, Bitoh, Teruo, Nomura, Mitsuyoshi, and Fujii, Tatsuya

Subjects

*SLURRY, *MAGNETIC fluids, *MAGNETIC flux, *SURFACE finishing, *RELATIVE motion, *FINISHES & finishing

Abstract

For the aspheric optical surface finished with a doughnut-shaped MCF (magnetic compound fluid) polishing tool, the performance of the polishing tool depends mainly on the properties of the MCF slurry. Therefore, understanding the effect of each MCF slurry component on the polishing characteristics is crucial to developing novel polishing techniques. In this paper, the polishing principle was depicted and the corresponding polishing jig was constructed with a six-degree-of-freedom manipulator. The conical surfaces, which were considered as special aspheric surfaces, were experimentally polished under proper polishing conditions to examine the effects of the carbonyl iron particles (CIPs) concentration and the sizes of the abrasive particles (APs) on the polishing ability to remove material/tool marks and improve work surface qualities. Theoretical analyses were also performed to gain a more comprehensive understanding of the behaviors of CIPs and APs in the magnetic field. The results were shown as follows: (1) The CIPs concentration affected positively the magnetization of the MCF slurry, leading to better performance in the removal rate of material/tool marks when a higher CIPs concentration of was applied. The best surface quality was attained with a CIPs concentration of 45 wt%. (2) Larger APs were beneficial for obtaining higher removal rates of material/tool marks. The APs with 1 μm in diameter were preferred for achieving a better surface quality. (3) Ferric clusters were formed along the magnetic line of force and their orientations changed periodically to stir the APs with the magnet revolution. (4) The Aps, at a given working gap, can squeeze the work-surface. The squeezing action was much more intense when larger APs and the MCF slurry with a higher magnetization were employed. (5) The material removal model suggested that the material was removed due to the APs and the relative motion between the work-surface and APs. • The orientations of ferric clusters are changed together with the magnetic line of force. • MCF slurry with 45 wt% in CIPs concentration results better surface quality. • Abrasive particles can be stirred and squeeze the work-surface during polishing. • Abrasive particles with 1 μm in diameter are preferred rather than other sizes. [ABSTRACT FROM AUTHOR]

Published

2020

28. Best-fitting sphere of aspheric surface based on spherical aberration.

Author

Pan, Bao-zhu and Tang, Jing

Subjects

*SPHERES, *IDEA (Philosophy), *PHYSICAL constants, *CURVATURE

Abstract

In order to understand the physical meaning of the best-fitting sphere of aspheric surface, based on the optical design idea of the aberration theory, the relationship between the curvature radius of the best-fitting sphere and the spherical aberration for the full aperture aspheric surface is set. The result is consistent with the traditional calculation method, which gets mainly from the geometric or algebraic. This formula explains the physical meaning of the best-fitting sphere of aspheric surface from the longitudinal spherical aberration: the curvature center of the best-fitting sphere moves compare with the vertex curvature center of the aspheric surface, and the amount of movement is one quarter of the longitudinal spherical aberration which the object is at the center of the vertex curvature of the aspheric mirror. Furthermore, the best-fitting sphere and asphericity for the annular aperture aspheric surface are also solved successfully. These formulas not only can help understand the best-fitting sphere from optics, but also calculation for off-axis aspheric surface is more convenient. The full aperture can be regarded as an annular aperture aspheric surface with zero inner diameter, the best-fitting spherical surface curvature radius and asphericity have unified calculation formulas for different aperture shapes of aspheric surfaces. All letters of the final expressions come from the parameters of aspheric surface itself, and each term is a clear physical quantity. Calculation is faster; concepts are easier to be understood. This is quite helpful for engineering. [ABSTRACT FROM AUTHOR]

Published

2020

29. Opto-mechanical Design of a Biaxial Elastic Lidar Prototype

Author

Vande Hey, Joshua D. and Vande Hey, Joshua D.

Published

2015

30. Sub Aperture Polishing of Fused Silica Aspheric Surface Using Dwell Time Approach

Author

Pandey, Neeraj, Kumar, A., Pant, K. K., Kumar, Vinod, Ghosh, A., Lakshminarayanan, Vasudevan, editor, and Bhattacharya, Indrani, editor

Published

2015

31. Define and Synthesis on Orbit Diversity

Author

Cheng, Haobo and Cheng, Haobo

Published

2015

32. Correction on Data Matching and Remounting Errors

Author

Cheng, Haobo and Cheng, Haobo

Published

2015

33. Investigation on the polishing of aspheric surfaces with a doughnut-shaped magnetic compound fluid (MCF) tool using an industrial robot.

Author

Feng, Ming, Wu, Yongbo, Wang, Youliang, Zeng, Jiang, Bitoh, Teruo, Nomura, Mitsuyoshi, and Fujii, Tatsuya

Subjects

*MAGNETIC fluids, *INDUSTRIAL robots, *GRINDING & polishing, *SURGICAL robots, *MECHANICAL abrasion, *OPTICAL imaging sensors, *SURFACE roughness, *PEARSON correlation (Statistics)

Abstract

Aspheric elements have become essential optical surfaces for modifying optical systems due to their abilities to enhance the imaging quality. In this work, a novel method employing a doughnut-shaped magnetic compound fluid (MCF) polishing tool, and an industrial robot was proposed for polishing aspheric surfaces. Firstly, investigations on the MCF tool, including the formation process and geometry, were conducted to form an appropriate polishing tool. The distribution of abrasive particles was observed using SEM and EDX mapping. Thereafter, a conic workpiece constructed from 6061-aluminum alloy was selected as the workpiece, which was used to discover the effects of the parameters on the polishing ability of aspheric surfaces. Finally, a polishing experiment was conducted with an aspheric element under the optimized conditions. The obtained results are shown as follows. (1) A relatively regular MCF tool was obtained when the eccentricity (r), amount of MCF slurry supplied (V), revolution speed of the MCF carrier and magnet (n c and n m , respectively) were given at appropriate values. (2) Abrasive particles entrapped in or attached to the clusters were observed abundantly on the MCF tool sample. (3) The surface profile of the conic workpiece after 60 min of polishing indicated that material was removed evenly, and an annular polishing area was attained. Meanwhile, a higher material removal rate and better surface roughness were achieved with a smaller working gap (h) and larger volume of the MCF slurry supplied (V). (4) The roughness (Ra) of the aspheric surface decreased from 49.81 to 10.77 nm after 60 min of polishing. The shape retention obtained a Pearson correlation coefficient (Pcc) of 0.9981, which demonstrated that this novel method is appropriate for polishing aspheric elements. • Aspheric surfaces are polished by a doughnut-shaped magnetic compound fluid tool. • A perfect MCF tool are obtained by researching the formation process and geometry. • The material removal rate affects deeply to the surface topography. • The h = 1 mm and V = 1.5 ml are perfect for polishing. • The roughness Ra 10.77 nm and high shape retention (pcc: 0.9981) are achieved. [ABSTRACT FROM AUTHOR]

Published

2020

34. Polishing path generation for physical uniform coverage of the aspheric surface based on the Archimedes spiral in bonnet polishing.

Author

Zhao, Qizhi, Zhang, Lei, Han, Yanjun, and Fan, Cheng

Abstract

As a new polishing method, bonnet polishing is suitable for polishing the curved surface due to its advantages in flexibility and adaptability of the polishing tool. In the polishing process, the contact state between the bonnet and the curved surface always changes. The traditional polishing tool path with equal interval will inevitably lead to over-polished areas and unpolished areas. In this article, a new tool path for bonnet polishing, which is called the revised Archimedes spiral polishing path, is proposed to ensure the physical uniform coverage of the curved surface in bonnet polishing. The path generation method is based on the modified tool–workpiece contact model and the pointwise searching algorithm. To prove the effectiveness of the revised path, two aspheric workpieces were polished along the traditional Archimedes spiral polishing path and the revised path, respectively. The roughnesses of the two workpieces are 10.94 and 10 nm, and the profile tolerances are 0.4097 and 0.2037 μm, respectively. The experimental results show that the revised path achieves lower roughness and surface tolerance than the traditional Archimedes path, which indicates that the revised path can achieve uniform physical coverage on the surface. [ABSTRACT FROM AUTHOR]

Published

2019

35. Tunable liquid lens integrated with aspheric surface.

Author

Wang, Jin-Hui, Zhou, Xin, Luo, Lin, Yuan, Rong-Ying, and Wang, Qiong-Hua

Subjects

*FOCAL length, *LENSES, *SURFACE morphology, *SQUARE root

Abstract

In this paper, we propose and experimentally demonstrate a tunable liquid lens integrated with an aspherical surface for spherical aberration and distortion compensation. Through optimizing the aspherical surface's morphology, the spherical aberration and distortion can be significantly reduced. The root mean square spot size at focus is distinctly reduced from 55. 7 μ m to 2. 095 μ m after performing optimum optimization. The tunable liquid lens is integrated with the aspheric surface with 6 mm clear aperture and 19.2 mm minimum focal length and demonstrate the improvement in optical performance over the conventional lens without an aspheric surface over a focal length range. Its applications in microscope system and tunable-focus eyeglasses are foreseeable. [ABSTRACT FROM AUTHOR]

Published

2019

36. Design Strategies

Author

Velzel, Chris, Adibi, Ali, Series editor, Asakura, Toshimitsu, Series editor, Rhodes, William T., Editor-in-chief, Hänsch, Theodor W., Series editor, Kamiya, Takeshi, Series editor, Krausz, Ferenc, Series editor, Monemar, Bo A.J., Series editor, Venghaus, Herbert, Series editor, Weber, Horst, Series editor, Weinfurter, Harald, Series editor, and Velzel, Chris

Published

2014

37. A Novel Form Measurement System for Precision Components Using Interferometric Sub-aperture Stitching

Author

Laubach, Sören, Ehret, Gerd, Knell, Holger, Kühnhold, Peter, Lehmann, Peter, and Osten, Wolfgang, editor

Published

2014

38. The UKIRT Wide-Field Camera

Author

Casali, Mark, Adamson, Andy, editor, Davies, John, editor, and Robson, Ian, editor

Published

2013

39. Instrumentation for Measurement Procedures

Author

Lay-Ekuakille, Aimé, Wang, Zhiming M, Series editor, Waag, Andreas, Series editor, Salamo, Greg, Series editor, Kishimoto, Naoki, Series editor, Bellucci, Stefano, Series editor, Park, Young June, Series editor, and Lay-Ekuakille, Aimé

Published

2013

40. Areal Form Removal

Author

Forbes, Alistair B. and Leach, Richard, editor

Published

2013

41. Electronic Viewfinders

Author

Underwood, Ian, Steven, David, Chen, Janglin, editor, Cranton, Wayne, editor, and Fihn, Mark, editor

Published

2012

42. Head-Mounted Projection Display Technology and Applications

Author

Hua, Hong, Brown, Leonard D., Zhang, Rui, and Furht, Borko, editor

Published

2011

43. Distortion of removal function based on the local asphericity of aspheric surface and the viscoelasticity of polishing tool in computer-controlled optical surfacing.

Author

Chen, Xianhua, Zhong, Bo, Wang, Jian, Huang, Hongzhong, Deng, Wenhui, Hou, Jing, Yuan, Zhigang, and Zhao, Shijie

Abstract

In the process of large aspheric optical surfaces fabrication, the distortion of the removal function is a big problem that affects the producing efficiency and accuracy, due to the misfit between the tool and the aspheric surface in the contact region. Consequently, this paper aims to find out the influence factors and the distortion rule of aspheric removal function in the computer-controlled optical surfacing. Firstly, based on the analysis of the sub-aperture polishing technology for the large aspheric optical surfaces, the local asphericity of aspheric surface and the viscoelasticity of polishing tool are supposed to be the main sources. After that, a method to calculate the local asphericity considering the misfit between the tool and the aspheric surface is proposed based on the least square method, and the viscoelasticity of the polishing tool is obtained through viscoelastic experiment. Subsequently, combining the results of the local asphericity of aspheric surface and the viscoelasticity of polishing tool, the prediction of the distortion rule of aspheric removal function is presented. Finally, the comparative experiment is carried out, and the removal function on different regions of the aspheric surface is obtained. The experimental result indicated that the distortion of the removal function is consistent with the theoretical result. Through this study, the distortion rule of aspheric removal function in the computer-controlled optical surfacing with pitch tool is finally mastered, which provides a theoretical guidance for the computer-controlled optical surfacing process optimization. [ABSTRACT FROM AUTHOR]

Published

2018

44. Very Large Spectroscopic Surveys with the VLT

Author

Parry, I. R., Burton, W. B., editor, Christensen, Lars Lindberg, editor, and Moorwood, Alan, editor

Published

2009

45. HAWK-I and Infrared Imaging on the VLT

Author

Casali, M., Ageorge, N., Alves de Oliveira, C., Biereichel, P., Delabre, B., Dorn, R., Esteves, R., Finger, G., Gojak, D., Huster, G., Jung, Y., Koch, F., Kiekebusch, M., Kissler-Patig, M., Le Louarn, M., Lizon, J.-L., Mehrgan, L., Moorwood, A., Pirard, J., Pozna, E., Silber, A., Sokar, B., Stegmeier, J., Burton, W. B., editor, Christensen, Lars Lindberg, editor, and Moorwood, Alan, editor

Published

2009

46. Laser direct writing of high resolution structures on curved substrates: evaluation of the writing precision

Author

Häfner, Matthias, Reichle, René, Pruss, Christof, Osten, Wolfgang, Osten, Wolfgang, editor, and Kujawinska, Malgorzata, editor

Published

2009

47. Microgrinding

Author

Jackson, Mark J.

Published

2007

48. Design of a stigmatic lens with minimal Fresnel losses

Author

G. I. Greisukh, Dmitry A. Bykov, Y. S. Strelkov, and Leonid L. Doskolovich

Subjects

Physics, Information theory, lens, business.industry, aspheric surface, Lens (geology), Physics::Optics, 02 engineering and technology, Astrophysics::Cosmology and Extragalactic Astrophysics, QC350-467, Optics. Light, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, Computer Science Applications, 010309 optics, fresnel losses, Optics, abbe sine condition, 0103 physical sciences, Electrical and Electronic Engineering, Q350-390, 0210 nano-technology, business

Abstract

A method for designing double aspheric lenses enabling minimal Fresnel losses in the class of stigmatic lenses is considered. Minimization of the Fresnel losses is provided by ensuring equal ray-deviation angles on both aspheric surfaces of the lens. The design of the lens is reduced to the integration of an explicit ordinary differential equation. Simple analytical approximations for the lens profiles are also presented.

Published

2021

49. A New Diamond Turning Method for Fabrication of Convex Aspheric Surface on Hard Brittle Material

Author

Yan, Jiwang, Syoji, Katsuo, Kuriyagawa, Tsunemoto, and Inasaki, Ichiro, editor

Published

2002

50. Study on improving the precision of form surface produced in elastic deformation molding process.

Author

Nguyen, Ducnam

Subjects

*ELASTIC deformation, *DEFORMATIONS (Mechanics), *MACHINING, *ASPHERICAL lenses, *FINITE element method

Abstract

Elastic deformation machining method is a simple machining method in manufacturing aspheric surfaces process. In this method, the top surface of workpieces will deform and be in contact with the mold surface once vacuum is applied, while the bottom of workpiece is polished to flatness with the vacuum pressure is maintained stability. The machining process is finished when the thickness of workpiece is polished to size as required. When the vacuum is turned off and the workpiece is released from the mold, the bottom surface of the workpiece will be shaped into the aspheric surface as the top surface returns to its original flat surface form due to material elasticity. During machining, the form accuracy of aspheric surface is dependent on the value of vacuum pressure and contact between workpiece and mold surface. Therefore, the study of behavior of the glass in contact with the mold surface is necessary to determine the suitable mold surface. In this paper, the simulation results of the glass in contact with the mold in the different pressure values have been carried out. Based on the simulation and experiment results, the appropriate pressure values and mold surface are established for machining process by elastic deformation machining method. In order to improve the precision of form surface produced in elastic deformation machining, the mold profile is modified by selecting the finite element analysis results of workpiece in the case of vacuum pressure P = −95 kPa and the conic constant K = −3. [ABSTRACT FROM AUTHOR]

Published

2017