1) dynamical localization
动力学局域化
1.
The electron dynamical localization phenomenon occurs when the optical pumpin.
讨论了光学泵的频率以及强度对系统输运性质的影响,发现当光学泵的频率等于空穴的分立能级时,发生电子的动力学局域化。
2) dynamical delocalization
动力学去局域化
3) Localized vibration
局域化振动
4) dynamical localization
动态局域化
1.
In this thesis, we investigate the transport properties of an ac driving double-bridged quantum dot arrays coupled to electronic leads with an uniform magnetic field applied perpendicularly on it and the effect of external noise on the dynamical localization of two coupling electrons in an isolated quantum dot array.
本文重点研究了在存在外源耗散的情况下,耦合双桥量子点链模型在交流电场与磁场共同驱动下的的电流输运性质,并研究了噪声对无外源耗散的双电子耦合量子点链系统动态局域化的影响。
2.
Using the long-time averaged occupation probability method, we quantitatively study the dynamical localization of system.
使用长时间平均占据概率方法,我们定量考察了系统的动态局域化行为。
3.
Using Floquet theory,we investigate dynamical localization effect on transport properties of an ac driving coupled quantum dot array,find photon-assistant Fano resonance in serially coupled triple quantum dots,and reveal competition between dynamical localization and Fano resonance in symmetric A-type coupled triple quantum dots.
采用理论推导和数值计算相结合的方法,我们分析了耦合量子点链系统中动态局域化效应对输运性质的影响,发现了串联耦合三量子点系统中的光子辅助Fano共振,揭示了对称的∧型耦合三量子点系统中的动态局域化效应及其对Fano共振的调控。
5) Dynamic Localization and Delocalization
动态局域化和退局域化
6) global dynamics
全局动力学
1.
This makes bond graph theory become very important to the global dynamics of a system with multi-energy domains.
这使得键合图理论在多能域耦合系统全局动力学的研究中占有重要的地位。
2.
By employing the nonlinear dynamical theory, the random vibration theory and the cell-to-cell mapping method, we studied the global dynamics of Duffing oscillator under the periodic excitation, the united periodic and bounded-noise excitations, and the quasi-periodic excitation respectively.
本论文主要讨论了在不同外激励作用下杜芬系统的全局动力学行为。
补充资料:超导电性的局域和非局域理论(localizedandnon-localizedtheoriesofsuperconductivity)
超导电性的局域和非局域理论(localizedandnon-localizedtheoriesofsuperconductivity)
伦敦第二个方程(见“伦敦规范”)表明,在伦敦理论中实际上假定了js(r)是正比于同一位置r的矢势A(r),而与其他位置的A无牵连;换言之,局域的A(r)可确定该局域的js(r),反之亦然,即理论具有局域性,所以伦敦理论是一种超导电性的局域理论。若r周围r'位置的A(r')与j(r)有牵连而影响j(r)的改变,则A(r)就为非局域性质的。由于`\nabla\timesbb{A}=\mu_0bb{H}`,所以也可以说磁场强度H是非局域性的。为此,超导电性需由非局域性理论来描绘,称超导电性的非局域理论。皮帕德非局域理论就是典型的超导电性非局域唯象理论。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条