Individual eye model based on wavefront aberration |
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| Authors: | Huanqing Guo Zhaoqi Wang Qiuling Zhao Wei Quan Yan Wang |
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| Institution: | aThe Key Laboratory photoelectron Information Science & Technique, Modern Optical Institute of Nankai University, Nankai University, Tianjin University, Tianjin, 300071, PR China;bPrecision Instrument and Photoelectron Engineering Institute, Tianjin University, Tianjin, 300071, PR China;cCommunication Engineering Institute, Jilin University, Jilin, 130022, PR China;dTianjin Eye hospital, Refractive Surgery Center, Tianjin, 300020, PR China |
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| Abstract: | Based on the widely used Gullstrand-Le Grand eye model, the individual human eye model has been established here, which has individual corneal data, anterior chamber depth and the eyeball depth. Furthermore, the foremost thing is that the wavefront aberration calculated from the individual eye model is equal to the eye's wavefront aberration measured with the Hartmann-shack wavefront sensor. There are four main steps to build the model. Firstly, the corneal topography instrument was used to measure the corneal surfaces and depth. And in order to input cornea into the optical model, high-order aspheric surface-Zernike Fringe Sag surface was chosen to fit the corneal surfaces. Secondly, the Hartmann-shack wavefront sensor, which can offer the Zernike polynomials to describe the wavefront aberration, was built to measure the wavefront aberration of the eye. Thirdly, the eye's axial lengths among every part were measured with A-ultrasonic technology. Then the data were input into the optical design software–ZEMAX and the crystalline lens's shapes were optimized with the aberration as the merit function. The individual eye model, which has the same wavefront aberrations with the real eye, is established. |
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| Keywords: | Wavefront aberration Eye model Corneal topography Zernike polynomials ZEMAX |
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