n&sup&+&/sup&-p-p&sup&+&/sup& Silicon Solar Cell Base Optimum Thickness Determination under Magnetic Field

Cheikh Thiaw; Mamadou Lamine Ba; Mamour Amadou Ba; Gora Diop; Ibrahima Diatta; Mor Ndiaye; Gregoire Sissoko

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n&sup&+&/sup&-p-p&sup&+&/sup& Silicon Solar Cell Base Optimum Thickness Determination under Magnetic Field

机译：n＆ sup＆ + + -p-p＆ sup＆ + + +。磁场下硅太阳能电池基极限厚度测定

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Base optimum thickness is determined for a front illuminated bifacial silicon solar cell n~(+)-p - p~(+) under magnetic field. From the magneto transport equation relative to excess minority carriers in the base, with specific boundary conditions, the photocurrent is obtained. From this result the expressions of the carrier’s recombination velocity at the back surface are deducted. These new expressions of recombination velocity are plotted according to the depth of the base, to deduce the optimum thickness, which will allow the production, of a high short-circuit photocurrent. Calibration relationships of optimum thickness versus magnetic field were presented according to study ranges. It is found that, applied magnetic field imposes a weak thickness material for solar cell manufacturing leading to high short-circuit current.

机译：在磁场下针对前照明双因子硅太阳能电池N〜（+）-P-P〜（+）确定基部最佳厚度。从磁传输方程相对于底座中的多余少数载体，获得特定边界条件，获得光电流。从该结果中，将载体的背面处的载体的重组速度的表达扣除。根据基部的深度绘制这些重组速度的新表达，以推导出最佳厚度，这将允许生产的高速光电流。根据研究范围介绍了最佳厚度与磁场的校准关系。发现，应用磁场施加了用于太阳能电池制造的弱厚度材料，导致高短路电流。

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《Journal of Electromagnetic Analysis and Applications 》 |2020年第7期| 共11页
作者
Cheikh Thiaw; Mamadou Lamine Ba; Mamour Amadou Ba; Gora Diop; Ibrahima Diatta; Mor Ndiaye; Gregoire Sissoko;
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Silicon Solar CellMagnetotransportSurface Recombination VelocityBase Thickness;

机译：硅太阳能电池Magnetransportsurface重组速度基均比;

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1. AC Back Surface Recombination Velocity in n&sup&＋&/sup&-p-p&sup&＋&/sup& Silicon Solar Cell under Monochromatic Light and Temperature [J] . Mame Faty Mbaye Fall, Idrissa Gaye, Dianguina Diarisso, Journal of Electromagnetic Analysis and Applications . 2021 ,第5期

机译：AC 回到表面复合速度在正＆安培 ; LT ; SUP ＆安培 ; GT + 安培 ; LT ; / SUP ＆安培 ; GT ; -p - P与M. LT ; SUP ＆安培 ; GT + 安培 ; LT ; / SUP ＆安培 ; GT ; 单色光和温度下的硅太阳能电池
2. A.C. Recombination Velocity as Applied to Determine n&sup&+&/sup&/p/p&sup&+&/sup& Silicon Solar Cell Base Optimum Thickness [J] . Amadou Mar Ndiaye, Sega Gueye, Ousmane Sow, Energy and power engineering . 2020 ,第10期

机译：A.C.施加的重组速度以确定n＆ sup＆ + / p＆ + + + + + + +。硅太阳能电池基础最佳厚度
3. Back Illuminated N/P/P&sup&+&/sup& Bifacial Silicon Solar Cell under Modulated Short-Wavelength: Determination of Base Optimum Thickness [J] . Mamadou Sall, Dianguina Diarisso, Mame Faty Mbaye Fall, Energy and power engineering . 2021 ,第5期

机译：背部照明N / P / P＆amp; LT; SUP＆amp; +＆amp; l; / sup＆amp; 在调制短波长的双脉灰太阳能电池：基础最佳厚度的测定
4. 3D STUDY OF BIFACIAL SILICON SOLAR CELL UNDER INTENSE LIGHT CONCENTRATION AND UNDER EXTERNAL CONSTANT MAGNETIC FIELD: RECOMBINATION AND ELECTRIC PARAMETERS DETERMINATION [C] . M. ZOUNGRANA, M. THIAME, A. DIOUM, European photovoltaic solar energy conference . 2007

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n&sup&+&/sup&-p-p&sup&+&/sup& Silicon Solar Cell Base Optimum Thickness Determination under Magnetic Field

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