Highly Efficient Solar Energy Conversion Using Graded-index Metamaterial Nanostructured Waveguide pdf
ملخص الدراسة:
In this paper, a graded-index metamaterial (GIM) nanostructured waveguide is proposed to enhance the performance of solar cells via a tunable absorption spectrum. The proposed four-layer nanostructured waveguide consists of two GIM and SiNx films which are squeezes between glass substrate and air. Using a transmission matrix method, the transmittances as well as the reflectance are calculated for different film thicknesses, refractive indices and incidence angles. We demonstrate that the reflectance is nearly zero where SiNx refractive index is 2.2 in vicinity of 620 nm. As the incident angle increases, the minimum reflectance wavelength blueshifts and slightly increase in the value. In addition, the variation in the minimum reflectance due to a change in the thickness of SiNx layer studied in detail. We show that the absorbance of a solar cell can be easily controlled by varying refractive index and/or thickness of SiNx layer in the proposed nanostructure. The result shows that the best efficiency occurs at normal incidence, n2 = 2.2, and d2 = 30 nm.
توثيق المرجعي (APA)
El-Khozondar, Hala J., El-Khozondar, Rifa J., Shama, Abhishek, Ahmed, Kawsar,& Dhasarathan, Vigneswaran (2020). Highly Efficient Solar Energy Conversion Using Graded-index Metamaterial Nanostructured Waveguide. Journal of Optical Communications, 28609
خصائص الدراسة
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المؤلف
El-Khozondar, Hala J.
El-Khozondar, Rifa J.
Shama, Abhishek
Ahmed, Kawsar
Dhasarathan, Vigneswaran
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سنة النشر
2020
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المصدر:
المستودع الرقمي للجامعة الإسلامية بغزة
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نوع المحتوى:
Journal Article
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اللغة:
English
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محكمة:
نعم
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الدولة:
فلسطين
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النص:
دراسة كاملة
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نوع الملف:
pdf