1.
Density Functional Theory Study on the Polarizability and Second-order Hyperpolarizability of 14-Vertex Bis-substituted Carborane and Metallaborane
14顶点双取代碳硼烷和金属硼烷极化率和二阶超极化率的DFT研究
2.
Quantum chemistry studies on the second hyperpolarizabilities of translation metal (Ni、Pd、Pt) organic complexes
过渡金属(Ni、Pd、Pt)配合物二阶超极化率的量子化学研究
3.
The Second-Order Nonlinear Susceptibility in Semiconductor Asymmetric Step Quantum Well Structure
半导体非对称阶梯量子阱结构的二阶非线性极化率
4.
Whether the Coordination Number Influence Dependence of Static First Hyperpolarizability on the Atomic Number of Alkali Metal
配体数与电子化物的一阶超极化率的碱金属原子序数依赖性
5.
Studies on the Solvent Effect of the First Order Hyper-polarizabilities of Ionic Organic Molecule and on the Dynamic Surface Tension;
离子型有机分子一阶超极化率的溶剂效应与动态表面张力的研究
6.
Theoretical Study of Polarizability and Hyperpolarizability of Molecule and Cluster;
分子和团簇的极化率及高阶极化率的理论研究
7.
Research on SiGeC Power Diodes with Ultra-Low Leakage Current and Ultra-Fast Recovery Characteristics
超低漏电流超快恢复SiGeC功率二极管研究
8.
Effect of Polaron Effect on Third-order Susceptibility in ZnS/CdSe Quantum Dot Quantum Well
极化子效应对ZnS/CdSe量子点三阶极化率的影响
9.
Calculation of High Order Nonlinear Polarizability in Single Modle Fiber
单模光纤中高阶非线性极化率的计算
10.
Third-order Nonlinear Susceptibility in a nc-Si/SiO_2 Spherical Quantum Dot
nc-Si/SiO_2球形量子点的三阶极化率
11.
Third-order Expansion of Ruin Probability in the Case of Second-order Regular Variation Tails;
二阶正规变化尾分布下破产概率的三阶展开式
12.
The most typical high power LED is super flux LED.
最典型的高功率发光二极管超级流量为主导。
13.
Sn Doped MnO_2 Electrode Material for Supercapacitors
Sn掺杂二氧化锰超级电容器电极材料
14.
Studies of Third-order Nonlinear Optical Susceptibility in InGaN/GaN Quantum Dot;
InGaN/GaN量子点中三阶非线性光学极化率的研究
15.
Optical Basicity and Third-order Nonlinear Optical Susceptibility in Glasses
玻璃光学碱度与三阶非线性光学极化率
16.
Transmitter techniques for ultra-wideband ground penetrating radar based on drift step recovery diodes
基于漂移阶跃恢复二极管的超宽带探地雷达发射技术
17.
2-D DOA and Polarization Estimation Using Fourth-order Cyclic Cumulation
基于四阶循环累积量的二维DOA和极化参数估计
18.
A typical GaP diode produces about10 times more radiant power than a typical CaAsP diode.
典型磷化镓二极管的辐射功率比典型磷砷镓二极管大10倍左右.