真空
Online ISSN : 1880-9413
Print ISSN : 0559-8516
ISSN-L : 0559-8516
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超音速窒素分子ビームを用いた Ti(0001) 表面窒化反応のリアルタイム光電子分光観察
小川 修一高桑 雄二石塚 眞治吉越 章隆寺岡 有殿水野 善之
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2006 年 49 巻 12 号 p. 775-779

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  Nitridation at a Ti(0001)-1×1 surface using supersonic N2 molecular beams was investigated by real-time photoelectron spectroscopy to clarify the adsorption reaction dynamics of N2 molecules at the Ti surface. In a whole N2 dosage region examined, N 1s spectra could be fitted well with two chemically-shifted components A and B. The binding energies were 396.9 and 396.6 eV, respectively. For both components A and B, the initial sticking probability S0, obtained by differentiating each uptake curve of N 1s, showed a decrease feature with increasing Et as the overall trend, while had significant minima at ∼0.3 and ∼1.5 eV. Such Et dependences of S0 suggest that the chemisorbed states A and B are similarly caused by a trapping-mediated adsorption process through a physisorption state at lower Et than 0.3 eV and an activated adsorption process becomes to be dominant at higher Et than 0.3 eV. Although both components A and B can appear similarly at the initial N2 adsorption stage, the component B decreases considerably after showing a maximum. The initial increase continues, however, with changing its uptake rate for the component A, indicating a change of the nitrogen adsorption state from the component B to A with progress of nitridation.
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© 2006 日本真空協会
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