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研究生: 邱傑振
Ciou Jie-Jhen
論文名稱: 鐡錳鐡薄膜成長於銅三金之晶體結構與磁性
Crystalline Structure and Magnetic Properties of Fe/Mn/Fe/Cu3Au(001)
指導教授: 林文欽
Lin, Wen-Chin
學位類別: 碩士
Master
系所名稱: 物理學系
Department of Physics
論文出版年: 2009
畢業學年度: 97
語文別: 英文
論文頁數: 58
中文關鍵詞: 薄膜多層膜磁性
英文關鍵詞: thin film, multilayer, magnetism
論文種類: 學術論文
相關次數: 點閱:211下載:4
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  • 我們使用中能量電子繞射儀,低能量電子繞射儀,磁光科爾效應來決定Fe/Mn/fcc-like Fe/Cu3Au(001)之成長模式,晶體結構及磁性。與Fe/Mn/Cu3Au(001)來比較,在磁性上有一些有趣的發現。即使多了fcc鐡的緩衝層,在低厚度時錳的晶體結構仍然是fcc.造成在垂直於晶體表面方向矯頑磁力的增強以及磁易軸翻轉的臨界厚度偏移可歸因於fcc鐡的緩衝層具有垂直於晶體表面方向的磁異向性.

    The growth, crystalline structure and magnetism of Fe/Mn/fcc-like Fe/Cu3Au(001)
    are characterized by medium energy electron diffraction (MEED), low energy electron diffraction (LEED) and magneto-optical Kerr effect (MOKE). Compared with
    Fe/Mn/Cu3Au(001), there are some interesting findings in magnetism of Fe/Mn/fcc-like Fe/Cu3Au(001). With the fcc-like Fe buffer layer, the crystalline structure of
    Mn/fcc-like Fe/Cu3Au(001) is still face-centered cubic(fcc) structure at low coverage. The key factor responsible for the extraordinarily enhanced coercivity in perpendicular direction of the Fe overlayer and shifted critical thickness of spin-reorientation transition (SRT) is attibuted to the perpendicular magnetization of fcc-like Fe buffer layer.

    Abstract                     1.Introduction      1 2.Apparatus 2.1 UHV System in NSRRC....................................3 2.2 Low Energy Electron Diffraction (LEED)................4 2.2.1 Theory..............................................4 2.2.2 Basic components of the standard LEED apparatus.....8 2.2.3 LEED-I/V............................................9 2.3 Auger Electron Spectroscopy (AES)....................11 2.3.1 Theory.............................................11 2.3.2 Basic components of the standard AES apparatus.....12 2.4 Magneto-Optical Kerr Effect (MOKE)...................13 2.5 Medium Energy Electron Diffraction (MEED)............15 3.Background 18 3.1 Two-dimensional lattices and superlattices...........18 3.2 Film deposition and growth modes.....................19 3.3 Artificial fcc Mn films..............................20 3.4 Hysteresis loop......................................21 3.4.1 Hard magnetic material.............................22 3.4.2 Soft magnetic material.............................23 3.5 The exchange interaction between FM and AFM materials24 3.6 Magnetic anisotropy..................................25 4.Experiment and Result 29 4.1 Experiment procedure.................................29 4.2 Growth and Structure of Mn/Fe/Cu3Au(001).............30 4.3 Growth and Structure of Fe/Mn/Fe/Cu3Au(001)..........35 4.4 Magnetic properties of Fe/Mn/Fe/Cu3Au(001)...........37 5.Discussion 46 6.Conclusion 51 Bibliography 52

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    [15] W. C. Lin, Doctor's thesis, National Taiwain University (2006).
    [16] B. Y. Lin, Master's thesis, National Taiwain University (2004).

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