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    請使用永久網址來引用或連結此文件: http://ir.lib.ncu.edu.tw/handle/987654321/86040


    題名: 利用深度神經網路模型換算表面電漿共振增強 Goos-H?nchen 位移;Using deep neural network (DNN) model to transform the surface plasma resonance (SPR) signal into its corresponding Goos-H?nchen shift
    作者: 李政宏;Lee, Cheng-Hung
    貢獻者: 光電科學與工程學系
    關鍵詞: 深度神經網路;表面電漿共振;deep neural network;surface plasma resonance
    日期: 2021-09-01
    上傳時間: 2021-12-07 11:55:47 (UTC+8)
    出版者: 國立中央大學
    摘要: 近年來將表面電漿共振應用於生物傳感器已在生物研究、健康科學研究、藥物發現、臨床診斷、環境和農業監測等領域非常流行,它可檢測傳感器表面的折射率變化,且擁有即時檢測、非標記、高靈敏度等優點,在市面上也有越來越多的商用儀器證明了 SPR 生物傳感器的成功。由於SPR生物傳感器在近年來得到了相當大的進展,本論文將利用機器學習中的深度神經網路對在表面電漿共振下之TE波、TM波之干涉現象搭配Goos–H?nchen位移進行學習,建立出一套Goos–H?nchen位移之生物傳感器模型,模型建立後,將各濃度之甘油水溶液丟入模型量測,並量測其靈敏度與檢測極限,可得到Goos–H?nchen位移之生物傳感器靈敏度為為29590μm/RIU,檢測極限為7.14??10?^(-6) RIU,相較於傳統的SPR反射強度量測,檢測極限整整多出了兩個量級,這不僅證實了相位式SPR量測在表現上優於反射強度量測,也透過訓練上參數的選擇證實了Goos–H?nchen位移量測靈敏度的增強來自於共振時的奇異相位延遲,而也因Goos–H?nchen位移與相位息息相關,因此Goos–H?nchen位移SPR生物傳感器也提供了另一種相位式SPR量測方法,相較於傳統相位式量測大大簡化了光學元件的運用。;In recent years, the application of surface plasmon resonance to biosensors (SPR Biosensor) has become very popular in the fields of biological research, health science research,drug discovery, clinical diagnosis,environmental and agricultural monitoring, etc. It can detect changes in the refractive index of the sensor surface, and with the advantages of instant detection,lable-free,and high sensitivity, more and more commercial instruments on the market have proved the success of SPR biosensors.As SPR biosensors have made considerable progress in recent years, this paper will use the deep neural network in machine learning to learn the interference phenomena of TE waves and TM waves under surface plasmon resonance with Goos–H?nchen displacement, and establish a set of biosensor models for Goos–H?nchen displacement. After the model was established,the glycerol solution of various concentrations was dropped into the model for measurement,and its sensitivity and detection limit were measured. The sensitivity of the biosensor for Goos–H?nchen displacement can be obtained as 29590μm/RIU, the detection limit is 7.14??10?^(-6) RIU.Compared with the traditional SPR reflection intensity measurement,the detection limit is two orders of magnitude more,which not only confirms that the phase SPR measurement is better than the reflection intensity measurement, but also confirms that the increase in the sensitivity of the Goos–H?nchen displacement measurement is due to the singular phase delay at resonance. And because the Goos–H?nchen displacement is closely related to the phase, the Goos–H?nchen displacement SPR biosensor also provides another phase-based SPR measurement method, which greatly simplifies the use of optical components compared to the traditional phase-based measurement.
    顯示於類別:[光電科學研究所] 博碩士論文

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