Using the Frustrated Internal Total Reflection by the Method of the Excitation Surface Plasma Waves for thin film material of Solar Cell
碩士 === 清雲科技大學 === 電子工程研究所 === 95 === This thesis will be in coupler configuration, the anti-reflective material that increased a layer in the solar cell element-SiO2, make the whole coupler configuration is become four layer structure, influence of exciting surface plasma waves for the absorption of...
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ndltd-TW-096CYU004280402016-05-16T04:09:55Z http://ndltd.ncl.edu.tw/handle/55484053028921113156 Using the Frustrated Internal Total Reflection by the Method of the Excitation Surface Plasma Waves for thin film material of Solar Cell 利用受挫式內部全反射法激發表面電漿波對太陽能電池薄膜材料之研究 Chih-Hsien Chien 錢志暹 碩士 清雲科技大學 電子工程研究所 95 This thesis will be in coupler configuration, the anti-reflective material that increased a layer in the solar cell element-SiO2, make the whole coupler configuration is become four layer structure, influence of exciting surface plasma waves for the absorption of the different light wave-length. This thesis will for kinds of different color wave-length gas laser is the conduct into the light source, and the principle is use the frustrated internal total reflection with exciting surface plasma waves of Otto configuration and Kretschmann configuration. In addition to confer the four kinds of different color wave-length gas laser for two kinds of configuration will be produce of variety, and also to analyze compare with increased a layer film material of solar cell-SiO2 in Otto configuration and Kretschmann configuration. Therefore different the color wave-length gas laser of light source, after through the prism coupler, want to excite surface plasma waves and produce the optimization resonance corn, then the thin film and thickness of the thin film will cause some influence, hence them to be aimed at four kinds of the different color wave-length gas laser for excite to optimization resonance corns of produce, look for the best thickness between thin films, and through to simulate of the surface plasma system, then analyze the characteristic of the different color wave-length. Chen-Ming Lee 李正民 2008 學位論文 ; thesis 60 zh-TW |
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碩士 === 清雲科技大學 === 電子工程研究所 === 95 === This thesis will be in coupler configuration, the anti-reflective material that increased a layer in the solar cell element-SiO2, make the whole coupler configuration is become four layer structure, influence of exciting surface plasma waves for the absorption of the different light wave-length. This thesis will for kinds of different color wave-length gas laser is the conduct into the light source, and the principle is use the frustrated internal total reflection with exciting surface plasma waves of Otto configuration and Kretschmann configuration. In addition to confer the four kinds of different color wave-length gas laser for two kinds of configuration will be produce of variety, and also to analyze compare with increased a layer film material of solar cell-SiO2 in Otto configuration and Kretschmann configuration. Therefore different the color wave-length gas laser of light source, after through the prism coupler, want to excite surface plasma waves and produce the optimization resonance corn, then the thin film and thickness of the thin film will cause some influence, hence them to be aimed at four kinds of the different color wave-length gas laser for excite to optimization resonance corns of produce, look for the best thickness between thin films, and through to simulate of the surface plasma system, then analyze the characteristic of the different color wave-length.
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author2 |
Chen-Ming Lee |
author_facet |
Chen-Ming Lee Chih-Hsien Chien 錢志暹 |
author |
Chih-Hsien Chien 錢志暹 |
spellingShingle |
Chih-Hsien Chien 錢志暹 Using the Frustrated Internal Total Reflection by the Method of the Excitation Surface Plasma Waves for thin film material of Solar Cell |
author_sort |
Chih-Hsien Chien |
title |
Using the Frustrated Internal Total Reflection by the Method of the Excitation Surface Plasma Waves for thin film material of Solar Cell |
title_short |
Using the Frustrated Internal Total Reflection by the Method of the Excitation Surface Plasma Waves for thin film material of Solar Cell |
title_full |
Using the Frustrated Internal Total Reflection by the Method of the Excitation Surface Plasma Waves for thin film material of Solar Cell |
title_fullStr |
Using the Frustrated Internal Total Reflection by the Method of the Excitation Surface Plasma Waves for thin film material of Solar Cell |
title_full_unstemmed |
Using the Frustrated Internal Total Reflection by the Method of the Excitation Surface Plasma Waves for thin film material of Solar Cell |
title_sort |
using the frustrated internal total reflection by the method of the excitation surface plasma waves for thin film material of solar cell |
publishDate |
2008 |
url |
http://ndltd.ncl.edu.tw/handle/55484053028921113156 |
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