參考文獻 |
[1] J. P. Painuly, “Barriers to renewable energy penetration; a framework for analysis”, Renewable Energy, Vol. 24, pp. 73-89, 2001.
[2] M. Hoogwijk, On the global and regional potential of renewable energy sources, Thesis Utrecht University., 1974.
[3] T. B. Johansson, H. Kelly, A. K. N. Reddy, Robert Williams, Renewable Energy: Sources for Fuels and Electricity, Island Press, 1992.
[4] S. A. Omer, D. G. Infield, “Design and thermal analysis of a two stage solar concentrator for combined heat and thermoelectric power generation”, Energy Conversion and Management, Vol. 41, pp. 737-756, 2000.
[5] A. A. Mohamad, ”High efficiency solar air heater”, Fuel and energy Abstract., Vol. 38, pp. 243-244, 1997.
[6] M. Yamaguchi, A. Luque, “High efficiency and high concentration in photovoltaics”, IEEE Transactions on Electron Devices, Vol. 46, pp. 2139-2144, 1999.
[7] M. A. Green, Z. Jianhua, A. Wang, S. R. Wenham, “Very High Efficiency Silicon Solar Cells—Science and Technology”, IEEE Transactions on Electron Devices, Vol. 46, pp. 1940-1947, 1999.
[8] K. W. J. Barnham, G. Duggan, “A new approach to high-efficiency multi-band-gap solar cells”, Jourmal of Applied Physics, Vol. 67, pp. 3490-3493, 1990.
[9] A. Rabl, “Comparison of solar concentrators”, Solar Energy, Vol. 18, pp. 93-111, 1975.
[10] O'neill, J. Mark, Solar concentrator and energy collection system, United States Patent 4069812, 1978.
[11] E. Lorenzo, A. Luque, “Fresnel lens analysis for solar energy applications”, Applied Optics, Vol. 20, pp. 2941-2945, 1981.
[12] D. T. Nelson, D. L. Evans, R. K. Bansal, “Linear Fresnel lens concentrators”, Solar Energy, Vol. 17, pp. 285-289, 1975.
[13] R. B. Bergmann, “Crystalline Si thin-film solar cells: a review”, Applied Physics A: Materials Science & Processing, Vol. 69, pp. 187-194, 1999.
[14] M. A. Green, Solar cells: Operating principles, technology, and system applications, Englewood Cliffs, 1981.
[15] H. Chenming, R. M. White, Solar cells: From basic to advanced systems, Mc graw-Hill college, 1983.
[16] D. E. Carlson., “Amorphous-silicon solar cells”, IEEE Transactions on Electron Devices, Vol. 36, pp. 2775-2780, 1989.
[17] G. B. Stringfellow, “VPE Growth of III/V Semiconductors”, Annual Review of Materials Science, Vol. 8, pp. 73-98, 1978.
[18] A. W. Bett, F. Dimroth, G. Stollwerck, O. V. Sulima, “III-V compounds for solar cell applications”, Applied Physics A: Materials Science & Processing, Vol. 69, pp. 119-129, 1999.
[19] H. H. John, Saxena, Ragini, “Diffraction efficiency of volume holograms written by coupled beams”, Optics Letters., Vol. 16, pp. 180-182, 1991.
[20] J. D. Edmond, Solar energy converter, US Patent 2949498, 1960.
[21] J. J. Loferski, “Tandem photovoltaic solar cells and increased solar energy conversion efficiency", Photovoltaic Specialists Conference, pp. 957–961, 1976.
[22] M. F. Lamorte, D. Abbott, “Two-junction cascade solar cell characteristics under 1000 concentration ratio and AM0-AM5 spectral conditions", Photovoltaic Specialists Conference, pp. 874-880, 1978.
[23] M. Wolf, “Limitations and possibilities for improvements of photovoltaic solar energy converters”, Proceedings of the IRE, Vol. 48, pp. 1246–1263, 1960.
[24] G. W. Masden, C. E. Backus, “Increased photovoltaic conversion efficiency through use of spectrum splitting and multiple cells", Photovoltaic Specialists Conference, pp. 853–858, 1978.
[25] J. R. Onffroy, D. E. Stoltzmann, R. J. H. Lin, G. R. Knowles, “High-efficiency concentration/multi solar-cell system for orbital power generation”, Journal of Energy, Vol. 6, pp. 371–376, 1982.
[26] D. C. White, B. D. Wedlock, J. Blair, “Recent advance in thermal energy conversion", Proceedings of 15th Power Source Conference, pp. 125–132, 1961.
[27] B. D. Wedlock, “Thermo-photo-voltaic energy conversion”, Proceedings of the IEEE, Vol. 51, pp. 694–698, 1963.
[28] A. M. Hermann, “Luminescent solar concentrators: a review”, Solar Energy, Vol. 29, pp. 323-329, 1982.
[29] McGrew, P. Stephen, Solar power system, US Patent 4204881, 1980.
[30] K. Froehlich, Wagemann, U. Ermit, H. Schulat, Schuette, Hartmut, Stojanoff, G. Christo “Fabrication and test of a holographic concentrator for two color PV-operation”, Proceedings of SPIE, Vol. 2255, pp. 812-821, 1994.
[31] J. E. Ludman, J. Riccobono, I. V. Semenova, W. Tai, L. Xaoli, G. Syphers, E. Rallis, G. Sliker, J. Martin, “The optimization of a holographic system for solar power generation”, Solar Energy, Vol. 60, pp. 414-415, 1997.
[32] 沈觀葆, 「全像太陽能集光器之研製」, 國立台灣大學, 碩士論文, 民國78年。
[33] 林政民, 「應用於太陽能收集器之全像光學元件製造與性能測試」, 國立台灣大學, 碩士論文,民國90年.
[34] C. G. Stojanoff, R. Kubitzek, S. Tropartz, K. Frohlich, O. Brasseur, “Design, fabrication and integration of holographic dispersive solar concentrator for terrestrial applications”, Proceedings of SPIE, Vol. 1536, pp. 206-214, 1991.
[35] Tholl, D. Hans, Luebbers, A. Hubertus, Stojanoff, G. Christo “Analysis of the chromatic aberrations of imaging holographic optical elements”, Proceedings of SPIE, Vol. 1456, pp. 262-273, 1991.
[36] R. E. Bird, C. Riordan, “Simple Solar Spectral Model for Direct and Diffuse Irradiance on Horizontal and Tilted Planes at the Earth's Surface for Cloudless Atmospheres”, Journal of Applied Meteorology, Vol. 25, pp. 87-97, 1986.
[37] 駱志龍, 「Fresnel透鏡設計及應用」, 國立中央大學, 碩士論文, 民國90年.
[38] K. Yoshika, K. Endoh, M. Kobayashi, A. Suzuki, T. Saitoh, “Design and properties of a refractive static concentrator module”, Solar Energy Materials and Solar Cells, Vol. 34, pp. 125-131, 1994.
[39] Stojanoff, G. Christo, Froening, Philipp, Schulat, Jochen, “Use of filler material in DCG films for predictable shift of the spectral characteristics of holograms”, Proceedings of SPIE, Vol. 3638, pp. 61-71, 1999.
[40] 陳敬恒, 「使用全像空間偏離偏極器之多埠光學循環器」, 國立交通大學, 博士論文, 民國93年.
[41] 陳逸寧, 基礎雷射全像術, 全華書局, 台灣, 民國94年.
[42] H. Kogelnik. “Coupled Wave Theory for Thick Hologram Gratings”, The Bell System Technical Journal, Vol.48, pp.2909-2947, 1969.
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