Diffusion Coefficient at Double Resonances in Frequency and Temperature, Applied to (n+/p/p+) Silicon Solar Cell Base Thickness Optimization under Long Wavelength Illumination

Diffusion Coefficient at Double Resonances in Frequency and Temperature, Applied to (n+/p/p+) Silicon Solar Cell Base Thickness Optimization under Long Wavelength Illumination

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摘要 The diffusion coefficient of the minority charge carriers in the base of a silicon solar cell under temperature and subjected to a magnetic field, passes in reso-nance at temperature (Topt). For this same magnetic field, the diffusion coeffi-cient of the photogenerated carriers by a monochromatic light in frequency modulation enters into resonance, at the frequency (ωc). Under this double resonance in temperature and frequency, the diffusion coefficient is used in the expression of the recombination velocity of the minority charge carriers on the back side of the base of the solar cell (n+/p/p+), to obtain, by a graphical method, the optimum thickness. A modeling of the results obtained shows a material saving (Si), in the development of the solar cell. The diffusion coefficient of the minority charge carriers in the base of a silicon solar cell under temperature and subjected to a magnetic field, passes in reso-nance at temperature (Topt). For this same magnetic field, the diffusion coeffi-cient of the photogenerated carriers by a monochromatic light in frequency modulation enters into resonance, at the frequency (ωc). Under this double resonance in temperature and frequency, the diffusion coefficient is used in the expression of the recombination velocity of the minority charge carriers on the back side of the base of the solar cell (n+/p/p+), to obtain, by a graphical method, the optimum thickness. A modeling of the results obtained shows a material saving (Si), in the development of the solar cell.

作者 Gora Diop Ousmane Sow Moustapha Thiame Richard Mane Ibrahima Diatta Khady Loum Sega Gueye Mamadou Wade Gregoire Sissoko Gora Diop;Ousmane Sow;Moustapha Thiame;Richard Mane;Ibrahima Diatta;Khady Loum;Sega Gueye;Mamadou Wade;Gregoire Sissoko(Ecole Polytechnique de Thiès, Thiès, Senegal;Institut Universitaire de Technologie, Université Iba Der THIAM de Thiès, Thiès, Senegal;Université Assane SECK, Zinguinchor, Senegal;Groupe International de Recherche en Energie Renouvelable(GIRER), Dakar, Sénégal)

机构地区 Ecole Polytechnique de Thiès Institut Universitaire de Technologie Université Assane SECK Groupe International de Recherche en Energie Renouvelable(GIRER)

出处《Journal of Electromagnetic Analysis and Applications》 CAS 2022年第8期89-103,共15页 电磁分析与应用期刊（英文）

关键词 Silicon Solar Cell-Diffusion Coefficient Recombination Velocity Absorption Coefficient Magnetic Field-Temperature-Thickness Silicon Solar Cell-Diffusion Coefficient Recombination Velocity Absorption Coefficient Magnetic Field-Temperature-Thickness

分类号 TG1 [金属学及工艺—金属学]

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参考文献17

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二级参考文献6

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共引文献6

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3Ousmane Sow,Mamadou Lamine Ba,Mohamed Abderrahim Ould El Moujtaba,Youssou Traore,El Hadji Sow,Cheikh Tidiane Sarr,Masse Samba Diop,Grégoire Sissoko.Electrical Parameters Determination from Base Thickness Optimization in a Silicon Solar Cell under Influence of the Irradiation Energy Flow of Charged Particles[J].Energy and Power Engineering,2020,12(1):1-15. 被引量：1
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5Papa Monzon Alassane Samake,Papa Touty Traore,Babou Dione,Pape Diop,Fatimata Ba,Mamadou Wade.Influence of the Magnetic Field on the Transient Decay of the Density of Charge Carriers in a Silicon Photocell with Vertical Multijunctions Connected in Series Placed in Open Circuit[J].Energy and Power Engineering,2022,14(12):747-761.
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Journal of Electromagnetic Analysis and Applications

2022年第8期

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Diffusion Coefficient at Double Resonances in Frequency and Temperature, Applied to (n<sup>+</sup>/p/p<sup>+</sup>) Silicon Solar Cell Base Thickness Optimization under Long Wavelength Illumination

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