Human Retinal Photoreceptors: Electrodynamic Model of Optical Microfilters

Hajiaboli A.; Popovi M.

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Human Retinal Photoreceptors: Electrodynamic Model of Optical Microfilters

机译：人类视网膜感光器：光学微滤器的电动模型。

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This paper presents a numerical study of light interaction with the human retinal photoreceptor using the finite-difference time-domain (FDTD) method. The photoreceptors, cells in the retina responsible for monochromatic vision and color discrimination, differ in shape and size. The cell type (rod or cone) and the variety among the cone cells (S, M, and L) condition their peak absorption wavelength (blue, green, or red). In our research, we observe the outer segment of the photoreceptor as a microsized optical filter by modeling its interaction with the light wave. Several aspects of wideband pulse propagation, such as field enhancement and filtering properties, have been investigated.

机译：本文使用有限差分时域（FDTD）方法对光与人视网膜感光器的相互作用进行了数值研究。视网膜中负责单色视觉和颜色辨别的感光细胞的形状和大小不同。像元类型（杆状或圆锥形）以及视锥细胞之间的种类（S，M和L）决定其峰值吸收波长（蓝色，绿色或红色）。在我们的研究中，我们通过对感光体与光波的相互作用进行建模，观察到感光体的外部部分是一个微型滤光片。已经研究了宽带脉冲传播的几个方面，例如场增强和滤波特性。

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《IEEE journal of selected topics in quantum electronics》 |2008年第1期|p.126-130|共5页
作者
Hajiaboli A.; Popovi M.;
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正文语种 eng
中图分类电工技术;
关键词
Field enhancement; finite-difference time-domain (FDTD); human photoreceptor; irradiant flux;

机译：场增强;时差有限域（FDTD）;人体感光器;辐射通量;

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4. Modelling the optical response of human retinal photoreceptors to plane wave illumination with the Finite Integration Technique [C] . Alireza Akhlagh Moayed, Shannon Dang, Omar M. Ramahi, Conference on optical coherence tomography and coherence domain optical methods in biomedicine XIII; 20090126-28; San Jose, CA(US) . 2009

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Human Retinal Photoreceptors: Electrodynamic Model of Optical Microfilters

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