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1)  quantum symmetry
量子对称
2)  quantum symmetrical junction
量子对称结
3)  Asymmetric quantum wells
非对称量子阱
1.
Rashba effect in PbTe/PbSrTe asymmetric quantum wells;
PbTe/PbSrTe半导体非对称量子阱中的Rashba效应
2.
The CdSe/ZnSe asymmetric quantum wells sample were grown on GaAs substrates by MOCVD.
利用MOCVD技术在GaAs衬底上外延生长了非对称量子阱结构CdSe/ZnSe材料,通过对其稳态变温光谱及变激发功率光谱,研究了其发光特性。
4)  symmetric coupled quantum well
对称耦合量子阱
1.
Research on energy level properties of symmetric coupled quantum well and optimization for quantum well structures;
对称耦合量子阱能级特性研究与量子阱结构优化
5)  supersymmetric quantum mechanics
超对称量子力学
1.
Solving the Riccati equation is a key to solving the Schrdinger equantion in supersymmetric quantum mechanics.
超对称量子力学求解薛定鄂方程的关键是求解黎卡提微分方程 ,由黎卡提方程求解的讨论 ,系统地得出了方程的数种可解情况 ,各可解情况对应着不同的超对称势函数 ,讨论了此数种超对称势函数对应的不同种类的一维势能函
2.
This article presents a method to solve the eigenvalue and eigenfunction of shape invariant potentials by using the fundamental concepts of supersymmetric quantum mechanics.
本文简要论述了利用超对称量子力学的方法求解形不变势的能量本征值和本征函数,并且列举了两个例子加以说明。
3.
For the quantum systems with a so-called shape invariant potential in the supersymmetric quantum mechanics, we find that the correction term is an invariant,independent of the number of nodes in the w.
发现该修正项正是在超对称量子力学中所谓的有形状不变势的量子系统的一个不变量,它不依赖于波函数的节点数。
6)  Asymmetric quantum dot
非对称量子点
1.
Magnetic field and temperature dependence of the properties of the magnetopolaron in an asymmetric quantum dot;
非对称量子点中磁极化子性质的磁场和温度依赖性
2.
The influences of the magnetic field on the properties of weak-coupling impurity bound polaron in an asymmetric quantum dot are studied by using a linear combination operator and the unitary transformation method.
采用线性组合算符和幺正变换方法,研究磁场对非对称量子点中弱耦合杂质束缚极化子性质的影响。
3.
The influences of the magnetic field,the transverse and longitudinal effective confinement length of quantum dot and the electron-phonon coupling strength on the vibrational frequency and the interaction energy of weak coupling magnetopolaron in an asymmetric quantum dot are studied by using an improved linear combination operator and the unitary transformation method.
采用改进的线性组合算符和幺正变换相结合的方法,研究磁场、量子点的横向和纵向有效受限长度和电子-声子耦合强度对非对称量子点中弱耦合磁极化子的振动频率和相互作用能的影响。
补充资料:单量子阱(见量子阱)


单量子阱(见量子阱)
single quantum well

单且子阱sillgle quantum well见量子阱。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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