仅考虑高频分支对极化子的贡献,研究了单模型三元混晶界面极化子的性质。
Taking higher frequency branch into account, The interface polaron of one mode behavior ternary mixed crystals was studied.
合理利用材料的界面极化,可使材料的吸收频带大大加宽,提高材料的吸波性能。
Proper interface polarization of the material will enlarge the wave absorption frequency and improve the wave absorption performance.
这些聚集在粘土矿物界面上的电荷就产生了激发极化效应。
This charge, which accumulates mainly at interfaces between clay minerals, is responsible for the IP effect.
界面层的存在使介电系数、自发极化、矫顽电压、漏电流都与薄膜的厚度有关。
Dielectric constant polarization coercive voltage and leakage current have relations with the thickness of thin films because of the interface layer.
由电容频谱曲线的主要特征判断,界面驰豫极化机制主导这一电容弥散区。
The main features of capacitance frequency curve recognize that the capacitance dispersion region results from the mechanism of interface relaxation polarization.
利用点接触反射方法获得可靠的自旋极化信息还有赖于接触界面特征的进一步分析。而一个更切合实际的、更完善的理论成为迫切的需要。
Further analysis of the contact interface and a more complete theory are needed to extract a reliable spin polarization message with the point contact Andreev reflection method.
从自洽求解薛定谔方程和泊松方程出发研究了利用异质界面上的极化电荷来剪裁异质结能带。
The energy band tailoring in AlGaN/GaN heterostructure by using polarization charge is investigated according to the self consistent solution of Schr dinger equation and Poisson equation.
考虑到铁磁层中的自旋极化效应与粗糙界面散射效应,利用散射理论,讨论铁磁超导隧道结中的散粒噪声。
Taking into account the spin polarized and interface roughness scattering effect, within scattering formalism, we calculate the shot noise in the ferromagnet superconductor tunneling junction.
因此,为了降低电池极化损失,必须优化沉积工艺对界面形貌的影响。
Consequently, it is necessary to optimize the deposition processes related to interfacial morphology in order to reduce the cell polarization loss.
研究结果表明:在高温段2DEG 的迁移率主要受LO声子散射限制;在室温,异质界面处的非均匀压电极化场对2DEG。
The results indicate that the 2DEG mobility is primarily limited by LO phonon scattering processes at high temperatures.
研究了两种去极化剂对液体钽电容器的阴极界面双电层及电容器电性能的影响。
In this paper, the influence of two depolarizing agents on the double electric layer of cathode interface and the electrical performance of wet tantum capacitors is studied.
在以后的工作中,特别是讨论极化子回旋共振的压力效应时,应该采用精细的界面声子模。
The detailed 10 phonon modes should be considered in the future work especially when ones study the pressure effects of cyclotron resonance of polarons.
在以后的工作中,特别是讨论极化子回旋共振的压力效应时,应该采用精细的界面声子模。
The detailed 10 phonon modes should be considered in the future work especially when ones study the pressure effects of cyclotron resonance of polarons.
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