Time Dependence of Muon Spin Relaxation Rate in Aluminum and Al-1.6Mg_2Si Alloy

机译：铝和Al-1.6％Mg_2SI合金中μ子旋转弛豫速率的时间依赖性

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Zero-field muon spin relaxation experiments were carried out for Al-1.6%Mg2Si and a pure aluminum in isothermal conditions between 260 and 300 K. Observed relaxation spectra were analyzed to extract the dipole width (A) values which were found to decrease with time after solution heat treatment and quenching. Time variations of A appeared to take place two stages in both samples. The stage transition times (t_(II)) deduced for Al-1.6%Mg2Si were comparable to those for the Si-rich clustering stage reported for Al-Mg-Si alloys. The estimated activation energy of Si-rich clustering was 0.62 (±0.04) eV. The stage transition times (t_M) for the pure aluminum were 255, 110 and 82 min after quenching at the measuring temperatures of 260, 280 and 300 K, respectively. An Arrhenius plot of logarithmic t_M against reciprocal temperature resulted in an activation energy of 0.19 (±0.06) eV.

机译：对于Al-1.6％Mg2SI进行零场μ子旋转弛豫实验，并在260和300k之间的等温条件下进行纯铝。分析观察到的弛豫光谱，以提取发现随时间减少的偶极宽度（a）值溶液热处理和淬火后。似乎在两个样品中发生两个阶段的时间变化。为Al-1.6％Mg2Si推导的阶段转变时间（T_（II））与用于Al-Mg-Si合金的富含Si的聚类阶段相当。富含Si的聚类的估计活化能量为0.62（±0.04 )eV。纯铝的阶段转变时间（T_M）分别在260,280和300k的测量温度下淬火后为255,110和82分钟。对数T_M抵抗往复温度的Arrhenius图导致激活能量为0.19（±0.06）EV。

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《International Conference on the Physical Properties and Application of Advanced Materials》|2020年|ix 244 p. :|共6页
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Katsuhiko Nishimura; Kenji Matsuda; Seungwon Lee; Isao Watanabe; Majed Abdel Jawad; Teiichiro Matsuzaki;
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中图分类 71.22083;
关键词
muon spin relaxation; time dependence; activation energy; Al-Mg-Si alloy; natural aging;

机译：μ子旋转放松;时间依赖;激活能量;Al-Mg-Si合金;天然老化;

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1. Time Dependence of Muon Spin Relaxation Rate in Aluminum and Al-1.6%Mg_2Si Alloy [J] . Katsuhiko Nishimura, Kenji Matsuda, Seungwon Lee, Materials science forum . 2020,第期

机译：铝和Al-1.6％Mg_2Si合金中μ子旋转速率的时间依赖性
2. Time dependence of muon spin relaxation spectra and spin correlation functions [J] . C. A. Steer Physical review. B, Condensed Matter And Materials Physics . 2006,第1期

机译：μ子自旋弛豫谱和自旋相关函数的时间依赖性
3. Anomalous temperature dependence of the relaxation rate measured by muon spin rotation in α-YbAl_(0.986)Fe_(0.014)B_4 [J] . Kazumasa Miyake, Shinji Watanabe Physical review. B, Condensed Matter And Materals Physics . 2018,第7期

机译：α-YbAl_（0.986）Fe_（0.014）B_4中通过μ自旋旋转测量的弛豫率的温度异常关系
4. Time Dependence of Muon Spin Relaxation Rate in Aluminum and Al-1.6Mg_2Si Alloy [C] . Katsuhiko Nishimura, Kenji Matsuda, Seungwon Lee, International Conference on the Physical Properties and Application of Advanced Materials . 2020

机译：铝和Al-1.6％Mg_2SI合金中μ子旋转弛豫速率的时间依赖性
5. Muon spin relaxation and rotation studies of the filled skutterudite alloys praseodymium osmium ruthenium antimonide and praseodymium lanthanum osmium antimonide. [D] . Shu, Lei. 2007

机译：填充方钴矿合金ody锑化钌和and镧锑化的μon自旋弛豫和旋转研究。
6. Frequency Dependence of Electron Spin Relaxation Times in Aqueous Solution for a Nitronyl Nitroxide Radical and Per-deuterated-Tempone between 250 MHz and 34 GHz [O] . Joshua R. Biller, Virginia M. Meyer, Hanan Elajaili, -1

机译：在水溶液中的电子自旋弛豫时间的频率依赖性为氮氧自由基和250兆赫和34 GHz之间的每氘代Tempone
7. The time dependence of muon spin relaxation spectra and spin correlation functions [O] . Steer, C. A. 2005

机译：μ子自旋弛豫谱与自旋相关的时间依赖性功能
8. Time Correlation of Random Moments in Spin Glass CuMn Observed by Zero-Field Muon Spin Relaxation [R] . Yamazaki, T., Uemura, Y. J., Takagi, M., 1979

机译：零场muon自旋弛豫观察旋转玻璃Cumn中随机矩的时间相关性

Time Dependence of Muon Spin Relaxation Rate in Aluminum and Al-1.6Mg_2Si Alloy

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