1) Pseudo atomic probe
虚拟原子探针
2) virtual probe
虚拟光探针
1.
The optical intensity distribution of near-field virtual probe has been numerically simulated by the method of 3-D finite-difference time-domain (FDTD) and the factors that have some influence on the field d.
虚拟光探针是基于近场光学隐失场干涉原理产生的一种非实体探针,可以应用于近场光学超高密度存储、纳米光刻、近场光学成像、光谱探测、纳米样品的近场光学操作等领域。
3) atom probe
原子探针
1.
We have studied the partitioning of B in Fe-14B and the partitioning of Zr, B, Si, Cu and Au in FeZrB nanocrystalline soft magnetic alloys by using atom probe field ion microscopy (APFIM) and high resolution microscopy (HREM) in atomic or nanometric scale and the effect of Si, Cu, Au additions on the magnetic properties.
综合利用原子探针、透射电镜和高分辨电镜在原子尺度上研究了Fe-14B中B和FeZrB中添加元素Cu、Au和Si的分布及其对磁性的影响。
4) probe atomization
探针原子化
1.
A method was developed for determination of trace lead in high purity magnesium by probe atomization GFAAS.
使用自制的全自动探针原子化装置 ,将探针原子化技术应用于测定高纯金属镁中痕量铅 ,利用样品中的基体镁转化成的硝酸镁作为基体改进剂 ,进一步改善了铅的分析性能。
2.
A method for the determination of trace aluminum in high purity magnesium by probe atomization graphite furnace atomic absorption spectrometry has been developed.
结果表明 ,在有Mg(NO3) 2 存在时 ,可显著提高探针原子化测铝的灰化温度 ,降低原子化温度 ,并且使铝的灵敏度提高了 50 %。
5) atomprobe(AP)
原子探针(AP)
补充资料:FIM-Ⅲ原子探针场离子显微镜
FIM-Ⅲ原子探针场离子显微镜
F【M铂原子卜州场离子显微镜其阁象分脚率为25人巍
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条