Antireflection of nano-sized SiO sphere arrays on crystalline silicon solar cells

机译：晶体硅太阳能电池上的纳米SiO球阵列的抗反射

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Optical properties of dielectric nano-sized sphere, embedded sphere and hemisphere arrays on SiN coated Si texture wafer were studied using the three dimensional finite-difference time-domain method. These arrays increase the photon currents each with an appropriate radius range. The spheres with a radius of 60 nm shows the strongest enhancement at normal incidence. The spheres can be seen as an additional antireflection coating by effective medium theory, because the sphere radius is smaller than the wavelengths of AM1.5G spectrum. It also shows the properties of omnidirectional antireflection due to the coupling of light through nano-sized spheres into Si with oblique incidence. For the angle of incidence from 0 to 75, the sphere arrays on SiN coated Si texture shows the lowest averaged weighted reflectance.

机译：利用三维有限差分时域方法研究了纳米SiN涂层Si结构晶片上电介质纳米球，嵌入球和半球阵列的光学特性。这些阵列增加了每个具有适当半径范围的光子电流。半径为60 nm的球在法向入射时显示出最强的增强。由于球半径小于AM1.5G光谱的波长，因此根据有效介质理论，这些球可以看作是附加的抗反射涂层。它也显示了全向减反射的特性，这是由于光通过纳米尺寸的球体以倾斜入射的方式耦合到硅中而产生的。对于从0到75的入射角，SiN涂层的Si织构上的球面阵列显示出最低的平均加权反射率。

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《International Conference on Numerical Simulation of Optoelectronic Devices》|2015年|145-146|共2页
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Lu Chun-Ti; Liu C.W.;
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4. Antireflection of nano-sized SiO sphere arrays on crystalline silicon solar cells [C] . Lu Chun-Ti, Liu C.W. International Conference on Numerical Simulation of Optoelectronic Devices . 2015

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Antireflection of nano-sized SiO sphere arrays on crystalline silicon solar cells

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