Statistical properties of stochastic electromagnetic beams passing through crystalline human eye lens
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- 作者:HaiXia Wang (1)
ChaoLiang Ding (1)
YongTao Zhang (1)
ZhiGuo Zhao (1)
LiuZhan Pan (1)
1. College of Physics and Electronic Information ; Luoyang Normal College ; Luoyang ; 471022 ; China - 关键词:Stochastic electromagnetic beams ; Statistical properties ; Human eye lens
- 刊名:Optical and Quantum Electronics
- 出版年:2015
- 出版时间:March 2015
- 年:2015
- 卷:47
- 期:3
- 页码:755-769
- 全文大小:859 KB
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- 出版者:Springer US
- ISSN:1572-817X
文摘
The statistical properties of stochastic electromagnetic beams passing through crystalline human eye onto the retina are studied. Using both the curved end faces and plane-parallel end faces models of human eye lens, a comparative study of the spectral density (SD), the spectral degree of polarization (SDOP) and the spectral degree of coherence (SDOC) of stochastic electromagnetic beams passing through crystalline human eye onto the retina is performed. It is shown that for the nearly incoherent electromagnetic beams, the SD and SDOP change non-monotonously with the propagation distance for plane-parallel end faces model, which is much different from the case when the human eye lens takes on curved end faces model, where the SD and SDOP change monotonously with the propagation distance. When the propagation distance is large enough, the SD decreases, whereas the SDOP and the SDOC increase with increasing lens thickness and decreasing lens equatorial radius, respectively. The validity of our results is interpreted physically.