Simulation of Multilayer Layer Antireflection Coating for Visible and Near IR Region on Silicon Substrate Using Matlab Program | ||
Engineering and Technology Journal | ||
Article 1, Volume 30, Issue 14, August 2012, Pages 2493-2506 PDF (251.4 K) | ||
DOI: 10.30684/etj.30.14.12 | ||
Authors | ||
Khaled Z.yahya; Jehan Admon Saimon; Hiba S. Tarik | ||
Abstract | ||
In this work , double layer and three antireflection coating were designed and simulated , optical reflection values were deduced with a matrix formulation via a personal computer using matlab program, six materials has been selected to investigated of the reflection as function of wavelength in visible region and near IR between (400- 1200nm) on silicon substrate and central wavelength at 900nm the result show double layer quarter-quarter wave optical thickness has good preference antireflection has been reduced reflection from 32% for silicon surface to 3% and for three layer coatings , the results obtained broadband antireflection spectra and several form antireflection that have zero reflection in double and three layer antireflection coating . The refractive index and the optical thickness of each layer are adjusting to optimum antireflection coatings on silicon solar cells . | ||
Keywords | ||
antireflection; thin film; Matlab; simulation; Reflection | ||
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