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古株 弘樹*; Yoon, S.*; Lee, H.*; 中嶋 薫*; 松田 誠; 左高 正雄*; 辻本 将彦*; Toulemonde, M.*; 木村 健二*
Nuclear Instruments and Methods in Physics Research B, 460, p.34 - 37, 2019/12
被引用回数:0 パーセンタイル:0.02(Instruments & Instrumentation)Gold and platinum nanoparticles of few-nm size were deposited on amorphous silicon nitride (a-SiN) films. These samples were irradiated with 380 MeV Au ions at grazing incident angles (
=2
-5) to a fluence of ~1
10
ions/cm
. The irradiated samples were observed using transmission electron microscopy (TEM). Ion tracks were clearly observed as long bright lines. Nanoparticles were found to be desorbed from long and narrow regions along the ion tracks. The surface temperature at the thermal spike produced by the ion impact was evaluated from the observed nanoparticle desorption. The observed temperature distribution is qualitatively explained by a one-dimensional two temperature model (1D-TTM) although there are some discrepancies which may be attributed to the surface effects which are not taken into account in 1D-TTM.
中嶋 薫*; 北山 巧*; 林 宏明*; 松田 誠; 左高 正雄*; 辻本 将彦*; Toulemonde, M.*; Bouffard, S.*; 木村 健二*
Scientific Reports (Internet), 5, p.13363_1 - 13363_8, 2015/08
被引用回数:5 パーセンタイル:40.93(Multidisciplinary Sciences)Irradiation of materials with either swift heavy ions or slow highly charged ions leads to ultrafast heating on a timescale of several picosecond in a region of several nanometer. This ultrafast local heating result in formation of nanostructures, which provide a number of potential applications in nanotechnologies. These nanostructures are believed to be formed when the local temperature rises beyond the melting or boiling point of the material. Conventional techniques, however, are not applicable to measure temperature in such a localized region in a short time period. Here, we propose a novel method for tracing temperature in a nanometer region in a picosecond time period by utilizing desorption of gold nanoparticles around the ion impact position. The feasibility is examined by comparing with the temperature evolution predicted by a theoretical model.
Mironov, M. I.*; Khudoleev, A. V.*; 草間 義紀
Plasma Physics Reports, 30(2), p.164 - 168, 2004/02
被引用回数:0 パーセンタイル:0.02(Physics, Fluids & Plasmas)高エネルギー荷電交換計測により、水素様不純物イオンによる水素イオンの中性化によって生成される高速原子の分布関数を決定することができる。分布関数を得るためには、プラズマ中でのターゲットイオンの成分と空間分布を知る必要がある。荷電交換標的粒子は、不純物原子核と加熱用中性粒子ビームとの相互作用で生成される。中性粒子ビームと計測装置との位置関係に基づき、ターゲット粒子の軌跡を計算する必要がある。実際のトカマク配位での不純物イオンのバランスを構築する原子の基礎過程を考慮するモデルが提案されている。JT-60Uプラズマへこのモデルを適用する。荷電交換原子束の形成機構を調べた。荷電交換束への異なったビーム入射装置の相対的な寄与を評価した。計算結果に基づき、固定した分析器を用いたイオン分布関数の局所的な測定の方法を提案する。
