Self-consistent calculations and design considerations for a GaAs nipi doping superlattice solar cellThe authors present design constraints which show that a previously proposed GaAs nipi doping superlattice solar cell structure would not work as an efficient space solar cell. A structure based on the CLEFT process, which shows promise of being an efficient cell with very high radiation tolerance, is proposed. In order to test theoretically its viability and to optimize its design, self-consistent quantum mechanical calculations were made for a number of thicknesses of the n, i, and p layers and the dopings in the n and p layers. These results show that: 1) an i layer is not necessary; in fact, its presence makes it difficult to satisfy one of the key constraints; 2) a near-optimum design with 750-A thick n and p layers with dopings of 2.5E18/cu cm and a selective contact separation of 20 microns would yield both high efficiency and very high radiation tolerance.
Document ID
19880047022
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Clark, Ralph O. (Cleveland State Univ. OH, United States)
Goradia, Chandra (Cleveland State University OH, United States)
Brinker, David (NASA Lewis Research Center Cleveland, OH, United States)