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Light trapping properties of pyramidally textured surfaces
1.M. A. Green, IEEE Trans. Electron Devices ED‐31, 671 (1984).
2.T. Tiedje, E. Yablonovitch, G. D. Cody, and B. G. Brooks, IEEE Trans. Electron Devices ED‐31, 711 (1984).
3.R. M. Swanson, Solar Cells 17, 85 (1986).
4.E. Yablonovitch and G. D. Cody, IEEE Trans. Electron Devices ED‐29, 300 (1982).
5.D. Redfield, Appl. Phys. Lett. 25, 647 (1974).
6.A. Goetzberger, Conf. Record, 15th IEEE Photovoltaic Specialists Conf., Orlando, 1981, pp. 867–870.
7.P. Sheng, IEEE Trans. Electron Devices ED‐31, 634 (1984).
8.R. A. Sinton, Y. Kwark, J. Y. Gan, and R. M. Swanson, IEEE Electron Device Lett. EDL‐7, 567 (1986).
9.The potential for a very effective light trapping in this structure was first suggested to one of the authors (M. A. G.) by Geoffrey Landis, then of Brown University in May 1984.
10.R. Hulstom, R. Bird, and C. Riordan, Solar Cells 15, 365 (1985).
11.M. A. Green, High Efficiency Silicon Solar Cells (Trans. Tech. Publications, Switzerland, 1987).
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