第7章

第1節

  1. A. Chatterjee, "Radiation Chemistry, Principles and Applications", Chap. 1, Farhataziz and M. A. J. Rodgers (eds.), VCH Publishers, New York (1987)
  2. J. L. Magee and A. Chatterjee, "Kinetics of Nonohomogeneous Processes", Chap. 4, G. R. Freeman (ed.), John Wiley & Sons, New York (1987)
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  5. 芳香族炭化水素の場合,イオン・電子再結合の直後から高いG値 (ベンゼンで3.8) で三重項状態が生成する。このような飽和炭化水素と芳香族炭化水素の差は,三重項状態の励起エネルギーの差だと言われているが,その理由ははっきりしていない。参考文献4および J. K. Thomas, Int. J. Radiat. Phys. Chem., 8, 1 (1976)参照。
  6. J. A. LaVerne and L. Wojnarovits, J. Phys. Chem., 99, 9862 (1995)
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第2節

  1. 志田正二, 佐藤伸, 「光化学と放射線化学」
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第3節

  1. A. Mozumder and J. L. Magee, Radiat. Res., 20, 203 (1966)
  2. J. L. Magee and A. Chatterjee, J. Phys. Chem., 84, 3529 (1980)
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  4. J. L. Magee and A. Chatterjee, "Track reactions of radiation chemistry" in "Kinetics of Nonhomogeneous Processes", Gordon R. Freeman (ed.), John Wiley and Sons, Inc., New York , 171 (1987)
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第4節

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  2. 詳細な文献は7-7節を参照されたい
  3. プラズマを用いてドライエッチングプロセスの教科書として,R.J. Shul and S.J. Pearton Eds. "Handbook of Advanced Plasma Processing Techniques", 2000, Springer, Berlin.
  4. まとまったレビューとして,J. L. Magee, and A. Chatterjee, "Track reactions of radiation chemistry" in "Kinetics of Nonhomogeneous Processes", Gordon R. Freeman (ed.), John Wiley and Sons, Inc., New York , 171 (1987)
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  6. イオンビームの高分子照射に関する教科書として,D. Fink, "Fundamentals of Ion-Irradiated Polymers", Springer, Berlin (2004)

第5節

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第6節

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第7節

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第8節

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第9節

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第10節

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