Modeling Radiation Effects on a Triple Junction Solar Cell using Silvaco ATLAS
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Authors
Schiavo, Daniel
Subjects
ATLAS
Fluence
I-V Curve
Photogeneration
Radiation
Semiconductors
Silvaco
Solar Cell
Traps
Triple Junction
Fluence
I-V Curve
Photogeneration
Radiation
Semiconductors
Silvaco
Solar Cell
Traps
Triple Junction
Advisors
Michael, Sherif
Date of Issue
2012-06
Date
12-Jun
Publisher
Monterey, California. Naval Postgraduate School
Language
Abstract
In this research, Silvaco ATLAS, an advanced virtual wafer fabrication tool, was used to model the effects of radiation on a triple junction InGaP/GaAs/Ge solar cell. A Silvaco ATLAS model of a triple junction InGaP/GaAs/Ge cell was created by first creating individual models for solar cells composed of each material. Realistic doping levels were used and thicknesses were varied to produce the design parameters and create reasonably efficient solar cell models for testing. After the individual solar cells were built, defects simulating the damage caused by radiation were introduced into the semiconductor model. After showing that the defects had a noticeable effect on the characteristics of the individual cells, a triple-junction solar cell created by layering the individual cells was then modeled. Work from previous NPS theses provided the background for modeling solar cells and the effects of radiation using Silvaco ATLAS. Data from another thesis provided the number of defects associated with the different fluence levels simulated.
Type
Thesis
Description
Series/Report No
Department
Electrical Engineering