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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/94903


    Title: 即時性動量空間影像量測系統 結合光致發光及顯微鏡量測;Instantaneous Momentum Space Imaging Measurement System Combined with Photoluminescence and Microscopy
    Authors: 戴立軒;TAI, LI-HSUAN
    Contributors: 光電科學與工程學系
    Keywords: 光致發光;顯微鏡;動量空間影像;Photoluminescence;Microscopy;Momentum Space Imaging
    Date: 2024-07-03
    Issue Date: 2024-10-09 15:36:22 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 當代科學研究領域中,利用先進光學系統對材料進行光學性質
    分析,已成為檢測物質內在機制的重要手段。本研究通過結合光致
    發光(Photoluminescence, PL)和電致發光(Electroluminescence, EL)
    技術激發樣品,配合無焦系統和透鏡組,將樣品的發光特性轉換為
    適合電荷耦合元件(Charge Coupled Device, CCD)測量的尺寸及形
    式。此方法能夠迅速且精準地獲得光強度角度分佈的實驗數據,與
    傳統測量方法相比,大幅提升了實驗效率,同時避免了樣品衰退的
    問題。
    在光學系統的設計過程中,關鍵步驟包括將樣品產生的光線通
    過物鏡在不同角度展開,並利用可調式光圈(IRIS)過濾掉高角度
    下的雜訊。系統中的無焦組件作為基礎架設,用於調節匹配光束的
    尺寸,最終在 CCD 上形成一個角度對角度的二維光強度分佈圖像,
    而樣品的激發方式採用了光致發光(PL)的方式,使系統能夠靈活
    適應多種樣品的激發需求。;In the realm of contemporary scientific research, utilizing advanced
    optical systems for analyzing the optical properties of materials has
    become a crucial means for probing the intrinsic mechanisms of
    substances.This study integrates Photoluminescence and Electroluminescence techniques to excite samples, combined with a lens-free system and
    lens assembly, transforming the sample′s luminescent characteristics into
    dimensions and forms suitable for measurement by Charge Coupled
    Devices . This method allows for the rapid and precise acquisition of
    experimental data on light intensity angle distribution, significantly
    enhancing experimental efficiency compared to traditional measurement
    methods, while also preventing sample degradation.
    During the design process of the optical system, key steps include
    dispersing the light generated by the sample through an objective lens at
    various angles, and filtering out noise at high angles using an adjustable
    iris (IRIS). The lens-free components serve as a fundamental setup to
    adjust and match the size of the light beam, ultimately forming a twodimensional light intensity distribution image of angle against angle on the
    CCD. The excitation of the sample is achieved through Photoluminescence,enabling the system to flexibly adapt to the excitation needs of
    various samples.
    Appears in Collections:[Graduate Institute of Optics and Photonics] Electronic Thesis & Dissertation

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