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研究生: 戴鵬哲
Peng-Che Dai
論文名稱: 氫、氧誘發鎳表面金字塔型單原子針尖
Hydrogen and oxygen induce formation of nickel pyramidal single-atom tips
指導教授: 傅祖怡
Fu, Tsu-Yi
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: 中文
論文頁數: 59
中文關鍵詞: 金字塔
論文種類: 學術論文
相關次數: 點閱:127下載:4
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    • 本實驗利用氣體誘發與加熱退火的方式成長鐵磁性單原子針。觀察鎳在不同溫度及不同氣體的環境下加熱退火後各切面擴張的現象。當曝氫氣壓~10-7 torr並且600K加熱5 分鐘,觀察到{311}擴大的現象;接著再曝氧~10-7 torr於600K加熱5 分鐘後(110)擴張與{311}共同取代(210)而形成單原子針。
    成長的單原子針依照面心立方堆積,則每層原子數為1、6、15…等,而若因成長速度差異造成(110)面缺少一層,就可觀察到每層原子數為1、3、10…的特殊面心立方堆積單原子針。

    By means of gas adsorption with annealing, we are trying to fabricateferromagnetic SATs (single-atom-tips) in the experiment. Hydrogen adsorption was introduced at ~10-7 torr with annealing at 600K for 5 min, the surface expansion of {311} is first observed due to high surface energy difference between {210} and {311}. After oxygen adsorption is exposed at ~10-7 torr with annealing at 600K for 5 min, the surface {210} is completely replaced by {311} and {110}, the pyramidal SATs have been generated.
    There are two types of SATs that we have observed. In normal FCC pyramidal SATs, the number of atoms are 1, 6, and 15…in series of top layers. And there are 1, 3, and 10…atoms in the top layers of special FCC pyramidal SATs.

    摘要 第一章 緒論 1-1 研究表面皺化現象的動機 1 1-2 單原子針的發展 2 1-3 研究單原子針的方向 6 第二章 實驗儀器與原理 2-1 實驗儀器-場離子顯微鏡(FIM)簡介 9 2-2 場離子顯微鏡周邊裝置 10 2-3 場離子化機制 15 第三章 樣品製備 3-1 多晶鎳線材的熱處理 21 3-2 鎳線電化學蝕刻 22 3-3 加熱退火與場蒸發 24 第四章 實驗過程與數據分析 4-1 觀察多晶鎳針表面結構 28 4-2 鎳表面皺化機制 35 4-3 鎳的皺化 38 第五章 結論 57 參考資料 58

    [1]J.G. Che, C.T. Chan, C.H. Kuo, and T.C. Leung, Phys. Rev. Lett. 79, 4230(1997)
    [2]H. W. Fink,W. Stocker, and H. Schmid, Phys. Rev. Lett. 65, 1204 (1990)
    [3]N. M.Miskovsky and P. H. Cutler, Appl. Phys. Lett. 74, 1093 (1999)
    [4]Tsuyoshi Ishikawa, Tomohiro Urata, Boklae Cho, Eiji Rokuta, and Chuhei Oshima,
    Appl. Phys. Lett. 90,143120(2007)
    [5]C. Oshima, K. Mastuda, T. Kona, Y. Mogami, M. Komaki, Y. Murata and T.
    Yamashita, Phys. Rev. Lett. 88, 038301-1~038301-4 (2002)
    [6]H. W. Fink: IBM. J. Res. Dev. 30, 460 (1986)
    [7]C.H. Nien, T.E. Madey, Y.W. Tai, T.C. Leung, J.G. Che and C.T. Chan, Phys. Rev.
    B59, 10334(1999)
    [8]C.H. Nien, T.E. Madey, Sur. Sci. 380, L527(1997)
    [9]Jie Guan, Robert A, Campbell, Theodore E. Madey, Sur. Sci. 341.311(1995)
    [10] J.G. Che, C.T. Chan, C.H. Kuo, T.C. Leung, Phys. Rev.Lett. 79, 4230 (1997)
    [11]N. Garcia, H. Rohrer, J. Phys.: Condens. Matter, 1, 3737 (1989)
    [12]H.S. Kuo, I. S. Hwang, T. Y. Fu, J. Y. Wu, C. C. Chang, T. T. Tsong, Nano Letters,
    4, 2379 (2004)
    [13] J.C. Tracy, J.M. Blakely, Surf. Sci. 13, 313 (1968)
    [14]R.E. Kirby, C.S. McKee, R.W. Roberts, Surf. Sci. 55, 725 (1976)
    [15]R.E. Kirby, C.S. McKee, L.V. Renny, Surf. Sci. 97, 457 (1980)
    [16]K.-J. Song,R.A.Demin,C.Dong, E. Garfunkel,T.E.Madey, Surf. Sci.Lett.227 , L79,
    (1990)
    [17] K.-J. Song, C.-Z. Dong, T. Madey, Langmuir 7, 3019 (1991)
    [18] K.-J. Song, J.C. Lin, M.Y. Lai, Y.L. Wang, Surf. Sci. 32,717 (1994)
    [19] M. Sander, R. Imbihil, R. Schuster, J.V. Barth, G. Ertl, Surf. Sci. 271,159 (1992)
    [20] S. Reiter, E. Taglauer, Surf. Sci. 367 , 33 (1996)
    [21] N. Reinecke, E. Taglauer, Surf. Sci. 454–456, 94 (2000)
    [22] J.G. Che, C.T. Chan, C.H. Kuo, T.C. Leung, Phys. Rev.Lett. 79, 4230 (1997)
    [23] M. Weinert, R.E. Watson, J.W. Davenport, G.W. Fernando, Phys.Rev. B39 ,12585
    (1989)
    [24]黃穎祥,國立台灣師範大學碩士論文,(2007)
    [25] Moh’d Rezeq, Jason Pitters, and Robert Wolkow, The journal of chemical
    physics 124, 204716(2006)
    [26]Faridur Rahman, Jo Onoda, Koji Imaizumi, Seigi Mizuno, Sur. Sci 602,
    2128-2134 (2008)
    [27]Hong-Shi Kuo, Ing-Shouh Hwang, Tsu-Yi Fu, Yu-Chun Lin, Che-Cheng Chang
    and Tien T. Tsong, Jpn. J. Appl. Phys, 45, 8972(2006)
    [28]Tsu-Yi Fu, Lung-Chieh Cheng, C.-H. Nien, and Tien T.Tsong, Phys. Rev. B64,
    13401 (2001)
    [29]吳俊毅,國立台灣師範大學碩士論文,(2002)
    [30]M. Bode, A. Kubetzka, O. Pietzsch, R. Wiesendanger, Sur. Sci. 514, 135–144,
    (2002)
    [31]E. W. Müller, Z. Physik, 106, 541 (1937)
    [32]E. W. Müller, Z. Physik, 131, 136 (1951)
    [33]E. W. Müller, T. T. Tsong, Field Ion Microscopy Principles and Applications
    (American Elsevier Publishing Company, New York, 1969)
    [33]M.K. Miller, G.D.W. Smith, Atom Probe Microanalysis(Published by the
    Meterials Research Society, Pittsburgh, Pennsylvania,1989)
    [34] Jian-Min Zhang, Fei Ma, Ke-Wei Xu, Applied surface science 229(2004)34-42
    [35]Ivan Ermanoski, Kalman Pelhos, Wenhua Chen, Jamie S. Quinton,Theodore E.
    Madey, Surf. Sci.549, 1–23 ( 2004)
    [36]I. Ermanoski, et al, Surf. Sci. 596, 89 (2005)
    [37]Ivan Ermanoski , Waclaw Swiech , Theodore E. Madey , Surf. Sci. 592,
    L299–L304 (2005)
    [38]M.J. Gladys , I. Ermanoski , G. Jackson , J.S. Quinton ,J.E. Rowe, T.E. Madey,
    Journal of Electron Spectroscopy and Related Phenomena 135,105–112 (2004)

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