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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/80704


    Title: Sn納米粒子的超導電性和自旋極化;Superconductivity and Spin Polarization in Sn Nanoparticles
    Authors: Zainollah;Ahmad
    Contributors: 物理學系
    Keywords: Sn,X射線衍射;反磁性;自旋極化;Sn, X-ray diffraction;diamagnetic;spin polarization
    Date: 2019-07-17
    Issue Date: 2019-09-03 15:00:18 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 通過具有單源室的熱蒸發方法製造Sn納米顆粒。 進行X射線衍射,利用晶體結構的表徵來確定生長的Sn納米顆粒的平均粒徑(樣品1和样品2分別為56nm和152nm)。 Sn的組成是使用通用結構分析系統(GSAS)程序分析X射線衍射圖案。
    在我們的研究中,通過AC磁化率(χAC=χ′+iχ′′)測量超導抗磁屏蔽效應。 磁化率χ′(T)的溫度依賴性可以用Scalapino的表達式來描述,該表達式允許提取超導轉變溫度。 樣品1和样品2的臨界溫度分別為3.8K和3.6K。
    在磁化率χ′(H)曲線的場依賴性中可以看到自旋極化效應,其可以通過衍生Langevin函數來描述,樣品1和样品2都顯示出超導性和自旋極化。;Sn nanoparticles are fabricated by a thermal evaporated method with single source chamber. X-ray diffraction performed the characterization of the crystal structure is utilized to determine the mean particle diameter (sample 1 and sample 2 is 56 nm and 152 nm, respectively) of the Sn nanoparticle as grown. The composition of Sn is an analysis of the X-ray diffraction pattern using the General Structure Analysis System (GSAS) program.
    In our study, the superconducting diamagnetic screening effect was measured through AC magnetic susceptibility (χ_AC=χ^′+iχ′′). The temperature dependence of magnetic susceptibility χ′(T) can be described by Scalapino’s expression, which allows extracting the superconducting transition temperature. The critical temperature of sample 1 and sample 2 is 3.8 K and 3.6 K, respectively.
    The spin polarization effects are seen in field dependence of the magnetic susceptibility χ′(H) curve, which can be described by derivative Langevin function, both of sample 1 and sample 2 revealing of superconductivity and spin polarization.
    Appears in Collections:[物理研究所] 博碩士論文

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