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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/43450


    Title: 應用於彩色共焦顯微術之繞射元件設計;The design of diffractive optical element applied to chromatic confocal microscopy
    Authors: 施政杰;Cheng-Chieh Shih
    Contributors: 光機電工程研究所
    Keywords: 折射/繞射複合光學元件;色散範圍;最小線寬;光源發散角;the minimum line width;dispersion range;refraction/diffraction composite optical element;divergence angle of light
    Date: 2010-08-27
    Issue Date: 2010-12-08 13:39:18 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 本論文主要在探討利用繞射光學理論設計出折射/繞射複合光學元件,實現在光軸上產生線性色散的光學特性,搭配準直透鏡來彙整折射/繞射複合光學元件所產生的色散光線,並且利用顯微物鏡來提升解析度,所組合而成的彩色共焦模組,以建立物體表面三維結構量測技術。 利用繞射光學理論設計出兩顆折射/繞射複合光學元件,實現在光軸上產生線性色散的光學特性,而且色散範圍皆在38000μm左右,利用可見光波長範圍“400 nm ~ 800 nm”來作為彩色共焦模組的工作波長,使搭配折射/繞射複合光學元件的彩色共焦模組的色散範圍可達2000μm左右,色散呈現線性趨勢。在降低光源發散角的敏感度的測試中,我們以相同色散範圍條件下,比較色散趨勢為正與色散趨勢為負的折射/繞射複合光學元件,發現色散趨勢為負的元件可使各波長後焦距誤差下降至-4.9%~-2.7%,而光斑半徑也縮小至783μm~584μm,而搭配色散趨勢為負的元件所組成彩色共焦模組的各波長後焦距誤差在-9.2%~-11.5%內,而光斑半徑更可縮小至176μm ~138μm,且此顆折射/繞射複合光學元件的最小線寬為30.5μm,可以進行超精密加工。 This paper focuses on the use of diffractive optics theory to design refraction / diffraction composite optical elements to realize the optical axis to generate the optical properties of linear dispersion, with coupling lens to compile with refraction / diffraction composite dispersion optical elements produced by light, and the use of microscopy to improve resolution, the chromatic confocal module to create three dimensional structure of a surface measurement technique. Diffractive optics theory to design two refractive / diffractive optical elements combined to achieve the optical axis to generate the optical properties of linear dispersion and dispersion are in 38000μm about the scope of the use of visible light wavelength "400 nm ~ 800 nm" to chromatic confocal module, as the work of the wavelength, so that with a refractive / diffractive optical elements for chromatic confocal module is about the dispersion range of up to 2000μm, the dispersion in a linear trend. Reduce the divergence angle in the light sensitivity of the test, in the same range of dispersion conditions, compare the positive dispersion trend and negative dispersion trend refraction / diffractive optical elements, found that the trend is negative dispersion allows all wavelengths components the error of back focal length dropped to -4.9% ~ -2.7%, while the spot radius is also reduced to 783μm ~ 584μm, while the trend with a negative dispersion of components of the chromatic confocal module the error of back focal length dropped to -9.2% ~ -11.5 %, and the spot radius can shrink to 176μm ~ 138μm, and the minimum line width of refractive / diffractive optical elements was 30.5μm, can be ultra-precision machining.
    Appears in Collections:[Graduate Institute of opto-Mechatronics] Electronic Thesis & Dissertation

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