1) differential energy spectrum
微分能谱
2) energy dispersive analysis system of X-ray
能谱-X线微束分析
1.
Objective To determine the position ultramicro-distribution and the quantity expression changes of α-actinin in the neurons differentiated from temporal lobe cerebral cortex nerve stem cells in newborn mouse at various time intervals with energy dispersive analysis system of X-ray.
目的用能谱-X线微束分析检测新生大鼠额叶皮质神经干细胞分化的神经元各时段α辅肌动蛋白(α-actinin)原位超微分布及量的表达变化。
3) X-ray energy spectrum microanalysis
X-射线能谱微区分析法
1.
Study on X-ray energy spectrum microanalysis chemical element of root tuber tissue in Potentilla anserina L.;
X-射线能谱微区分析法对鹅绒委陵菜块根组织的化学元素分析研究
4) differential photoelectron energy spectrum
光电子能量微分谱
1.
Direct measurement of the temporal structure of narrow bandwidth femtosecond XUV using ultra-short laser via differential photoelectron energy spectrum;
利用超短脉冲激光和光电子能量微分谱直接测量窄带飞秒超紫外线XUV脉冲的时间结构
5) differential spectroscopy
微分谱学
1.
This review gives an introduction to the principle and applications of the differential spectroscopy technique in scanning tunnelling microscopy.
文章介绍了扫描隧道显微术中微分谱学的原理及其在实验中的诸多应用。
6) differential spectrum
微分光谱
补充资料:半微分极谱法
分子式:
CAS号:
性质:又称为去卷积伏安法(deconvolution voltammetry)。是以记录电流的半微分m′,与电压E的关系曲线,或记录电流的1.5次微分同m′′或2.5次微分m′′′与电压正的关系曲线为基础的极谱法和伏安法。
CAS号:
性质:又称为去卷积伏安法(deconvolution voltammetry)。是以记录电流的半微分m′,与电压E的关系曲线,或记录电流的1.5次微分同m′′或2.5次微分m′′′与电压正的关系曲线为基础的极谱法和伏安法。
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