Abstract

Based on liquid-lens technology and our previous findings on the optical model of the Chinese eye, the liquid lens is applied in the research of the crystalline-lens optical model. Theoretical models of three-layer liquid lenses are built with COMSOL software, and the effect of voltage on the shape of the interface between two liquids is analyzed. By polynomial fitting, different equations describing the interface shape are set up under different voltages. Finally, the optical system of the human eye with a three-layer liquid lens is built and analyzed with Zemax optical design software, and moreover the optical system models of emmetropia, myopia, and hyperopia are presented. This method to build a model of the human eye with a variable-focus liquid lens can provide a novel idea for more practical human-eye models for clinical regulation and control in the future.

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  10. C. N. WilsonA fully customizable anatomically correct model of the crystalline lens2011
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  12. M. Kong and Z. LiResearch of bright pupil effect based on Chinese human eye modelChin. Opt. Lett.201412113301-1113301-3
  13. M. Kong, L. Zhu, D. Chen, Z. Liang, R. Zhao, and E. XuEffect of the liquid density difference on interface shape of double-liquid lensJ. Opt. Soc. Korea201620427430
  14. H. Liou and N. BrennanAnatomically accurate, finite model eye for optical modeliJ. Opt. Soc. Am. A19971416841695
  15. I. Escudero-Sanz and R. NavarroOff-axis aberrations of a wide-angle schematic eye modelJ. Opt. Soc. Am. A19991618811891
  16. P. Artal and R. NavarroMonochromatic modulation transfer function of the human eye for different pupil diameters: an analytical expressionJ. Opt. Soc. Am. A199411246249

Other (16)

D. Ke and X. ChengCurrent trends of liquid lensesProc. International Photonics and OptoElectronics MeetingsOptical Society of America2014OSA Technical Digest (online)paper OF3A.3

G. Gratton, J. S. Maier, M. Fabiani, W. W. Mantulin, and E. GrattonFeasibility of intracranial near-infrared optical scanningPsychophysiology199431211215

H. Ren and S. WuVariable-focus liquid lens by changing apertureAppl. Phys. Lett.20058616791681

L. Li, C. Liu, H. Ren, H. Deng, and Q. WangAnnular folded electrowetting liquid lensOpt. Lett.20154019681971

B. BergeLiquid lens technology: principle of electrowetting based lenses and applications to imagingProc. 18th IEEE International Conference on Micro Electro Mechanical SystemsUSA2005Jan.227230

S. Kuiper and B. H. W. HendriksVariable-focus liquid lens for miniature camerasAppl. Phys. Lett.20048511281130

M. Kong, D. Chen, X. Chen, Z. Liang, R. Zhao, and E. XuResearch of the human eye model with variable-focus liquid lensMicrofluid. Nanofluid.20172140

W. Qiao, F. S. Tsai, S. H. Cho, H. Yan, and Y.-H. LoFluidic intraocular lens with a large accommodation rangeIEEE Photon. Technol. Lett.200921304306

Z. Ding, C. Wang, Z. Hu, Z. Cao, Z. Zhou, and X. ChenSurface profiling of an aspherical liquid lens with a varied thickness membraneOpt. Express20172531223132

C. N. WilsonA fully customizable anatomically correct model of the crystalline lens2011

M. Kong, Z. Gao, X. Li, S. Ding, X. Qu, and M. YuA generic eye model by reverse building based on Chinese populationOpt. Express2009171328313297

M. Kong and Z. LiResearch of bright pupil effect based on Chinese human eye modelChin. Opt. Lett.201412113301-1113301-3

M. Kong, L. Zhu, D. Chen, Z. Liang, R. Zhao, and E. XuEffect of the liquid density difference on interface shape of double-liquid lensJ. Opt. Soc. Korea201620427430

H. Liou and N. BrennanAnatomically accurate, finite model eye for optical modeliJ. Opt. Soc. Am. A19971416841695

I. Escudero-Sanz and R. NavarroOff-axis aberrations of a wide-angle schematic eye modelJ. Opt. Soc. Am. A19991618811891

P. Artal and R. NavarroMonochromatic modulation transfer function of the human eye for different pupil diameters: an analytical expressionJ. Opt. Soc. Am. A199411246249

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