REDUCING THE THICKNESS OF THE SILICON BASE OF A PHOTO ELECTRICAL DEVICE THROUGH THE APPLICATION OF OPTICAL LAYERS

Madina  Muydinova; Mohira Fozilova; Khamidahon  Kosimjonova

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Issue: Vol. 2 No. 5 (2022):

Section: Articles

Published: May 10, 2022

This work is licensed under a Creative Commons Attribution 4.0 International License.

Muydinova Madina Alisher qizi

PhD senior lecturer at Andijan State University

info@in-academy.uz

Fozilova Mohira Soyibjon qizi

Andijan State University 2nd year master's degree in "Renewable Energy Sources and Sustainable Environmental Physics"

info@in-academy.uz

Kosimjonova Khamidahon Botirjon kizi

Andijan State University, Faculty of Physics and Mathematics Stage 3 student

info@in-academy.uz

Abstract:

This paper analyzes the spectral characteristics of light absorption and light reflectance for different thicknesses of silicon base using an optimal multilayer anti-reflection layer.

Keywords:

semiconductor, absorbency, silicon base, reflection index, texture, multilayer, optical solution . /

How to Cite:

Muydinova , M. ., Fozilova , M., & Kosimjonova , K. . (2022). REDUCING THE THICKNESS OF THE SILICON BASE OF A PHOTO ELECTRICAL DEVICE THROUGH THE APPLICATION OF OPTICAL LAYERS. Eurasian Journal of Academic Research, 2(5), 201–203. Retrieved from https://in-academy.uz/index.php/ejar/article/view/2933

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Jain S, Depauw V, Miljkovic VD et al (2015) Broadband absorption enhancement in ultrathin crystalline Si solar cells by incorporating metallic and dielectric nanostructures in the back reflector. Prog Photovoltaics Res Appl 23: 1144–1156. doi: 10.1002 / pip.2533

L.A.Kosyachenko, YE.V.Grushko, T.I.Mikityuk Pogloshatelnaya sposobnost poluprovodnikov, ispolzuemix v proizvodstve solnechnix paneley. // Physics and technique of semiconductors, 2012, volume 46, vip. 4. S..

A.G.Kazanskiy Tonkoplenochniye kremniyeviye solnechniye elementi na gibkix podlojkax. // RENSIT, 2015, TOM 7, NOMER 1, pp.

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