MINORITY CARRIERS MOBILITY DETERMINATION IN THE BASE REGION OF N+-P-P+ SILICON SOLAR CELL UNDER EFFECTS OF IRRADIATION FLUX, TEMPERATURE AND MAGNETIC FIELD
Journal: International Journal of Advanced Research (Vol.9, No. 8)Publication Date: 2021-08-20
Authors : Sada Traore Idrissa Gaye Oulimata Mballo Ibrahima Diatta Richard Mane Mor Ndiaye Mohamed Abderahim El Moujtaba; Gregoire Sissoko;
Page : 694-703
Keywords : Solar Cell- ModulatedShort-Circuit Photocurrent- Recombination-Velocity-Magnetic Field-Irradiation Temperature- Mobility;
Abstract
The aim of this study is to show the influence of temperature on the relative value of the short-circuit photocurrent density obtained from an n+-p-p+silicon solar cell front illuminated with modulated polychromatic light. The solar cell was already subjected to charged particules irradiation flux (Φp) and intensity (kl,) and remained under both magnetic field (B) and temperature (T). Thus, the graphical representation of the relative value of the short-circuit photocurrent density as a function of the square of the magnetic field (B) yields to determine the slope, which is related to the mobility of minority carriers in the base. It is obtained for a back surface field silicon solar cellunder both temperature and irradiation flux of charged particules.
Other Latest Articles
- E-LEARNING IN THE BANKING SECTORCASE STUDY OF THE NATIONAL BANK OF GREECE
- A REVIEW OF CHALLENGES AND POSSIBILITIES OF BILAYER TABLET TECHNOLOGY
- AN OVERVIEW OF SWARM INTELLIGENCE IN ARTIFICIAL INTELLIGENT SYSTEMS
- A CLINICAL SUCCESS IN THE MANAGEMENT OF KOTHA (DIGITAL GANGRENE) BY LEECH THERAPYANDPANCHTIKTAGHRITAGUGGULU - A SINGLE CASE STUDY
- APPLICATION OF THE GUIDE (GTR) TO PLATFORM FLOORS FROM THE TRARZA AND INCHIRI-MAURITANIA REGION MBLAL-LAHOUVICH AXIS AND AKJOUJT-TASIASIT AXIS
Last modified: 2021-09-13 20:24:46