1.
Research on Localized Electromagnetic Enhancement of Metallic Nano-Tip by Numerical Simulation;
金属纳米尖局域电磁场增强的数值模拟研究
2.
The Relationship Between the Geometry of an Isolated Ag Nanoshell Dimer and the Electromagnetic Field Enhancement
银纳米球壳二聚体的几何结构与电磁场增强共振波长的关系
3.
Study on the Production of Particle Reinforced Aluminum Alloy Composite Material under High Frequency Electromagnetic Field;
高频磁场制备颗粒增强铝基复合材料研究
4.
Electromagnetic Properties of Heterogeneous Materials and the Local Electric Field Enhancement Effects
异质材料电磁特性及局域场增强效应研究
5.
Functional Magnetic Resonance Imaging at 0.35 T Using SEEP Contrast
增强低场下脑功能磁共振成像显著性的研究
6.
magnetically focused cascade image intensifier
磁聚焦级联像增强器
7.
enhanced virtual tape server
增强型虚拟磁带服务器
8.
MRI examination was performed with a 1.0 tesla superconductive magnetic field, and processed with turbo spin echo sequence.
MRI平扫和增强检查在 1.0T超导磁场中完成 ,采用快速自旋回波序列。
9.
but exposure to magnetic field of stronger intensity or for longer time is harmful to deformability of erythrocyte.
而磁场强度增加或照射时间延长都不利于红细胞变形能力的改善。
10.
AIM:To observe the effect of different intensity constant magnetic field(CMF) on proliferation of rat aorta endothelial cells(RAEC).
目的:观察不同强度恒磁场对大鼠主动脉内皮细胞增殖的影响。
11.
Preliminary Study on the Effects of Inhibition for Metabasis and Proliferation of Human Hepatocarcinoma by Intense Magnetic Field;
强恒磁场对人肝癌增殖和转移侵袭抑制影响的初步研究
12.
The Effects of Power Frequency Homogeneous Magnetic Field on Apoptosis and Proliferation of Normal and Tumor Cells;
工频匀强磁场对正常细胞和肿瘤细胞凋亡与增殖影响的研究
13.
Electromagnetic Effect of Surface Enhanced Raman for Bioanalytical Applications;
表面增强拉曼散射的电磁场效应在生化分析中的应用
14.
Studies on Discharge Characteristics and Applications of ICP Enhanced Unbalanced Magnetron Sputtering in Cusp-field Confined Magnetron;
会切场约束ICP增强非平衡磁控溅射放电及应用研究
15.
Three-dimensional dynamic congtrast-enhanced MR portography technique in 3.0T
门静脉三维动态增强在3.0T高场磁共振成像技术的应用
16.
Effects of moderate static magnetic field on cell proliferation and cell cycle of leukemia cells
中等强度静磁场对白血病细胞增殖和细胞周期的影响
17.
The force of attraction is dependent on the strength of the magnetic field that again is dependent upon the strength of the current.
引力取决于磁场强度,磁场强度取决于电流强度。
18.
An instrument for measuring the intensity and direction of a magnetic field.
磁强计测量磁场的强度和方向的工具