1.
THE NUMERICAL ANALYSIS ON THE RESPONSE OF INDUCED POLARIZATION RELAXATION TIME SPECTRA WELL LOGGING
激发极化弛豫时间谱测井仪探测特性理论分析
2.
Our analysis shows that the increase of the relaxation time originates from the dynamic degradate effect of the polarization relaxation of the domains.
分析表明:这种弛豫时间的增加来源于在畴区上极化弛豫的动态慢化效应.
3.
Observation of relaxation time for polarization clusters in BaTiO_3 near TC by photon correlation spectroscopy
光子相关谱法测量BaTiO_3中极化团簇的弛豫时间
4.
Study on Domain Morphology and Polarizing Characteristics of PMNT Relaxor Ferroelectric Single Crystal
准同型相界组分PMNT弛豫铁电单晶的畴结构与极化特性
5.
2-D Numerical Simulation of Thermal Relaxation Time of MOS Diode
MOS二极管热弛豫时间的二维数值模拟
6.
Research on Structure Relaxation, Crystallization and Magnetic Property of Fe-based Amorphous
Fe基非晶结构弛豫、晶化及磁性能研究
7.
Investigation on Conductivity Relaxation of Cathode Materials Containing Cobalt;
含钴燃料电池阴极材料的电导弛豫研究
8.
Mechanical and Impedance Relaxations Study in Na_xCo_2O_4
Na_xCo_2O_4陶瓷的力学弛豫和阻抗弛豫研究
9.
Study on Chemical Synthesis of Antiferroelectric PLZST with Complex Perovskite Structure;
PLZST复合钙钛矿结构弛豫反铁电材料的化学合成
10.
Preparation of SiGe Buffer Layer by Oxidation of SiGe/Si MQW Structure
氧化SiGe/Si多量子阱制备Si基SiGe弛豫衬底
11.
Ferroelectric Relaxor Behaviour of Ba(Ti_(0.91)Zr_(0.09))O_3 Ceramic Doped with Oxides
氧化物掺杂Ba(Ti_(0.91)Zr_(0.09))O_3陶瓷的介电弛豫行为
12.
Snoek Relaxational Peak in a Fe-Cr-Al Alloy;
Fe-Cr-Al合金中的Snoek弛豫
13.
Analysis of strain energy and relaxation degree in different-shaped quantum dots using finite element method
有限元法分析不同形状量子点的应变能及弛豫度变化
14.
T_2 Relaxation Time Change in Ddifferent Brain Regions of Penicillin-induced-epilepsy Model
大鼠青霉素致痫模型不同脑区T_2弛豫时间变化的初步研究
15.
Study of Dielectric Relaxation Spectroscopy of SiO_2-PANI Electrorheological Fluid
聚苯胺包覆二氧化硅电流变液的介电弛豫谱研究
16.
Regional changes of T2 relaxation on porcine patellar cartilages in vitro by means of degradation enzymatically at 7.0T MR
家猪体外胰蛋白酶消化关节软骨的7.0T磁共振T2弛豫时间图与量化分析
17.
Vibrational energy relaxation in condensed phases is an important dynamical process in chemistry, physics and biology.
凝聚相中的振动能量弛豫是化学、理学和生物学中一个非常重要的动力学过程。
18.
The modulation bandwidth and the relaxation oscillation frequencies of the laser are quite different at different injection powers and wavelengths.
发现在不同的注入光强度和波长下,激光器的调制带宽和弛豫振荡峰频率会发生变化。