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    題名: 利用表面電漿共振增強 Goos-Hänchen 位 移現象量測折射率變化;Measurement of Refractive Index Variation by Using Enhanced Goos-Hänchen Shift Based on Surface Plasmon Resonance
    作者: 涂譽馨;Tu, Yu-Hsin
    貢獻者: 光電科學與工程學系
    關鍵詞: 表面電漿共振;Goos-Hänchen 效應;Surface Plasmon Resonance;Biosensor;Goos-Hänchen effect;Kretschmann Configuration;Kaisa
    日期: 2020-01-21
    上傳時間: 2020-06-05 17:12:48 (UTC+8)
    出版者: 國立中央大學
    摘要: 本論文利用表面電漿共振 (Surface Plasmon Resonance, SPR) 能夠增
    強 Goos-Hänchen 效應 (Goos-Hänchen Effect, GH Effect) 的能力,結
    合其本身多年來於生物樣本檢測領域的應用,以偏振光學、GoosHänchen 效應、表面電漿共振以及干涉光學的理論為基礎重新設計實
    驗,並且重新定義一物理量 Kaisa 作為新的檢測依據。
    實驗設計中,將一道擁有兩個偏振模態 (TE and TM Mode) 的雷
    射光束導入 Kretschmann Configuration,原入射雷射光由於表面電漿
    共振 (Surface Plasmon Resonance, SPR) 對於兩偏振態會造成不同程
    度的 Goos-Hänchen 效應的位移現象,在雷射光離開 Kretschmann
    Configuration 時,原入射光由原先兩個偏振模態正交的一道雷射光一
    分為二,形成兩道偏振模態正交的雷射光束,且兩道雷射光束間部分
    面 積 重 合 。 並 且 在 Kretschmann Configuration 後放置 GlanThompson Polarizer 使 TE 偏振模態和 TM 偏振模態分別單獨通過,
    以及兩偏振模態同時通過,使其兩於同方向量上產生分量進行干涉。
    最終由偵測器量測 TE 偏振模態和 TM 偏振模態的反射光吸收光
    譜以及干涉後干涉項的光強。而 Kaisa 即為干涉項的光強除以兩倍
    的 TE 偏振模態和 TM 偏振模態的反射光強相乘的開根號。
    經由理論模擬後計算後,原先作為檢測依據的 TM 偏振模態的
    iii
    反射光強的品質因數 (Figure of Merits, FoM) 為 37.12,而 Kaisa 的
    品質因數則為 114.67,相較原檢測依據的品質因數提升了 3.09 倍。
    實際實驗量測中,以蔗糖水溶液作為量測樣本,樣本濃度分別為 0%、
    1.25%、2.5%、5%以及 10%,其對應折射率為 1.33299、1.33478、1.33659、
    1.34026 以及 1.34783。而此實驗架構量測折射率變化的檢測極限
    (Limit of Detection, LoD) 可達 1.05 × 10−3
    RIU (Refractive Index
    Unit)。;This work adopted the concept of Goos-Hänchen effect into the Surface
    Plasmon Resonance biosensor. The experimental design is based on the
    theory of the Polarization of Light, Goos-Hänchen effect, Surface Plasmon
    Resonance and Interferometry. And a new parameter, Kaisa, is introduced
    and defined.
    In the experimental design, a laser beam with both TE and TM
    polarization mode serves as the incident light source arriving at the
    Kretschmann Configuration. Since the Surface Plasmon Resonance
    introduce different Goos-Hänchen shifts to the laser beam with TE and TM
    polarization mode, the incident laser beam is split into two beams with TE
    and TM polarization mode respectively. Moreover, there is a slight spatial
    shift between them. After the Krestchmann Configuration a GlanThompson Polarizer is placed to allow only the beam with TE or TM
    polarization mode to pass, and create the component on the same direction
    for both beam to interfere with each other. At last the detector will measure
    the power of the beam with TE and TM polarization mode respectively and
    the power of the interference term. The new parameter, Kaisa, is then
    defined as the power of the interference term divided by two times of the
    square value of the product of the power of the beam of TE and TM
    polarization mode.
    According to the theoretical calculation and simulation, the Figure of
    Merit (FoM) of the power of the beam with TM polarization mode, which
    is commonly used as the parameter for Surface Plasmon Resonance
    biosensor testing is 37.12, meanwhile, the FoM of Kaisa is 114.67,
    v
    indicating increasing the resolution of the biosensor by 3.09 times. In
    practice, the sucrose solutions are selected as the testing sample, with the
    concentration of 0%, 1.25%, 2.5%, 5% and 10%, and the corresponding
    refractive index will be 1.33299, 1.33478, 1.33659, 1.34026 and 1.34783
    respectively. The Limit of Detection (LoD) of the system is able to reach
    1.05 × 10−3 RIU (Refractive Index Unit).
    顯示於類別:[光電科學研究所] 博碩士論文

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