研究生: |
李益年 Yi-nian Li |
---|---|
論文名稱: |
電漿表面共振CMOS光學量測系統 Surface Plasmon Resonance Cmos Optics Measurement System |
指導教授: |
林保宏
Pao-Hung Lin |
口試委員: |
邱炳樟
Bin-Chang Chieu 王秀仁 Show-Ran Wang 黃忠偉 Jong-Woei Whang 張勝良 Sheng-Lyang Jang |
學位類別: |
碩士 Master |
系所名稱: |
電資學院 - 電子工程系 Department of Electronic and Computer Engineering |
論文出版年: | 2009 |
畢業學年度: | 97 |
語文別: | 中文 |
論文頁數: | 64 |
中文關鍵詞: | 表面電漿共振 |
外文關鍵詞: | Surface Plasmon Resonance |
相關次數: | 點閱:280 下載:3 |
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本文主要探討金屬的光學性質對於介電物質與金屬的介面、金屬薄膜之表面電漿共振性質。本研究首先探討基礎的電漿原理和金屬的電磁效應,再透過光電儀器的設計和CMOS感光晶片軟體程式來實現金屬薄膜與玻璃的電漿共振效應;另一方面此實驗係由雷射、反射鏡、稜鏡與金屬薄膜樣本所構成,在金屬薄膜厚度與系統參數最佳化之下,得到穩定的SPR曲線;也將應用此金屬樣品進一步的量測不同入射波長的自然光來得到各個波長的SPR曲線,甚至加入生物因子來探討是否能夠達到量測監控的效果。
This text probes into metal optics character for lying between electric material and metal interface, surface plasmon resonance character of the metal membrane. First, the research probes into plasmon principle on the foundation and metal electromagnetic effect, then, through optics design of instrument and CMOS sensitization chip software procedure accomplish SPR effect between metal membrane resonate and the glass; This experiment department by laser, speculum, prism, a specimen of metal membrane, under thickness of the metal membrane and systematic parameter optimization, get the steady SPR curve; It will use this metal sample to measure the wavelength of different incident light to get each SPR curve, then will probe into the biological factor whether can achieve to monitor the measurable system.
參考文獻
[1] H. Raether, Surface Plasmons (Springer , New York,1988).
[2] A. V. Zayats, I. I. Smolyaninov, A. A. Maradudin,Phys. Reports 408, 131 (2005).
[3] A. Dhirani, P.-H. Lin, and P. Guyot-Sionnest,"Self-assembled molecular rectifiers"
American Chemical Society (1997).
[4] D. A. Schultz, Current Opinion in Biotechnology 14,13 (2003).
[5] Pao-Hung Lin ,P, Guyot-Sionnest, "Replacement of Self-Assembled Monolayers of
Di(phenylethynyl)benzenethiol on Au(111) by n-Alkanethiols" American Chemical
Society (1998).
[6] Patrick Englebienne,Anne Van Hoonacker and Michel Verhas, "Surface plasmon resonance: principles,methods and applications in biomedicalsciences",Spectroscopy
17255–273 255 IOS Press (2003).
[7] H. Raether, Surface Plasmons on Smooth and Rough Surfaces and on Gratings, Berlin: Springer-Verlag(1988)
[8] M. Ashino, and M. Ohtsu, Appl. Phys. Lett.72, 1299 (1998).
[9] O. Sqalli, I. Utke, P. Hoffmann, and F. Marquis-Weible, J. Appl. Phys. 92, 1078(2002).
[10] W. C. Liu , C. Y. Wen, K. H. Chen, W.C. Lin, and D. P. Tsai, Appl. Phys. Lett. 78,
685(2001).
[11] D. P. Tsai, and W. C. Lin, Appl. Phys. Lett. 77, 1413(2000).
[12] C. Haynes, and R. P. Van Duyne, J. Phys. Chem. B107, 7426 (2003).
[13] M. Moskovits, J. Chem. Phys. 69,4159 (1978).
[14] W. Srituravanich, N.Fang, S. Durant, M. Ambati, C. Sun, and X. Zhang,J. Vacuum
Science & Tech. B 22, 3475 (2004).
[15] S. Sun, G. J. Leggett,Nano Lett. 4, 1381 (2004);
[16] M. Westphalen, U. Kreibig, J.Rostalski, H. LuK th, and D. Meissner, Solar Energy Materials and Solar Cells 61, 97 (2000).
[17] K. Matsubara, S. Kawata, and S.Minami, Appl. Opt. 27, 1160 (1998).
[18] J. R. Sambles, Nature (London) 391, 641 (1998);
[19] P. R. Villeneuve, Phys. World 11, 28 (1998).
[20] forrest,I, Boley, 電漿 (1974).
[21] 山崎耕造 沈文訓,圖解電將入門(2007).
[22] R. W. Wood, Philos. Mag. 4, 396 (1902).
[23] U. Fano, J. Opt. Soc. Am. 31, 213 (1941).
[24] 何符漢、蔡定平、劉威志, 物理雙月刊 24 期4卷, p. 558 (2002).
[25] 邱國斌、蔡定平, 物理雙月刊 25 期3 卷, p. 373(2003).
[26] 吳民耀、劉威志, 物理雙月刊 28 期2 卷, p. 486(2006).
[27] E. Kreschmann and H. Raether, "Radiative decay ofnon-radiative surface plasmons excited by light", Z.Naturforsch 23, 2135-2136(1968).