@proceedings {Keogh2001,
title = {Natural Sunlight Calibration of Silicon Solar Cells.},
year = {2001},
note = {
},
address = {Munich, Germany},
author = {W. Keogh and Andrew W Blakers}
}
@proceedings {Honsberg2001,
title = {A New Generalized Detailed Balance Formulation to Calculate Solar Cell Efficiency Limits},
year = {2001},
note = {
},
pages = {22-26},
author = {Christiana B Honsberg and R. Corkish and S. P. Bremner}
}
@conference {Aberle1993,
title = {A New Method for the Accurate Measurements of the Lumped Series Resistance of Solar Cells},
booktitle = {Proceedings of the 23rd IEEE Photovoltaic Specialists Conference},
year = {1993},
address = {Louisville, KY},
author = {Armin G Aberle and Wenham, S.R. and Martin A Green}
}
@article {basore1990,
title = {Numerical modeling of textured silicon solar cells using PC-1D},
journal = {Electron Devices, IEEE Transactions on},
volume = {37},
year = {1990},
month = {02/1990},
pages = {337 -343},
abstract = {PC-1D is a quasi-one-dimensional finite-element program for modeling semiconductor devices on personal computers. The program offers solar cell researchers a convenient user interface with the ability to address complex issues associated with heavy doping, high-level injection, nonplanar structures, and transients. The physical and numerical models used in PC-1D Version 2 that make it possible to approximate the multidimensional effects found in textured crystalline silicon solar cells, including the effects of increased front-surface recombination, oblique photon path angles, and light trapping, are presented. As an example of how the model can be applied, PC-1D is used to investigate the interpretation of spectral quantum efficiency data as a tool for diagnosing the internal performance of textured silicon solar cells},
keywords = {elemental semiconductors, finite element analysis, finite-element program, front-surface recombination, heavy doping, high-level injection, internal performance, light trapping, microcomputer applications, modeling semiconductor devices, multidimensional effects, nonplanar structures, numerical models, oblique photon path angles, PC-1D, PC-1D Version 2, personal computers, semiconductor device models, semiconductors, Si, SILICON, solar cells, spectral quantum efficiency data, textured solar cells, transients},
issn = {0018-9383},
doi = {10.1109/16.46362},
author = {Basore, P.A.}
}
@article {Pliskin1964,
title = {Nondestructive determination of thickness and refractive index of transparent films},
journal = {IBM Journal of Research Devices},
volume = {8},
number = {1},
year = {1964},
note = {
},
pages = {43{\textendash}51},
abstract = {
A simple nondestructive method of measuring the refractive index and thickness of transparent films on reflective substrates has been developed. The technique involves the use of a microscope equipped with a monochromatic filter on the objective and a stage that can be rotated so that the reflected light is observed at various angles. The film thickness, d, is given by d = {[\ΔN\λ]/[2\µ(cos} r2, - cos r1)], where \λ is the wavelength of the filtered light, \µ is the refractive index, and {\ΔN} is the number of fringes observed between the angles of refraction r2, and r1.
}, url = {http://portal.acm.org/citation.cfm?id=1662391}, author = {W. A. Pliskin and E. E. Conrad} } @article {Chapin1954, title = {A New Silicon P-N Junction Photocell for Converting Solar Radiation into Electrical Power}, journal = {Journal of Applied Physics}, volume = {25}, year = {1954}, note = {