Semiconductor quantum dot is a mesoscopic system with marked quantum size effect.
半导体量子点是一种具有显著量子尺寸效应的介观体系。
The behavior of materials at mesoscopic level is key to the macroscopic behavior.
细观层次上的材料行为对于材料的宏观行为起着关键的作用。
The mesoscopic dynamics of a chemical chaos model was studied by stochastic simulations.
用随机模拟方法研究了化学混沌模型的介观动力学。
Applying the formula into mesoscopic system we get the energy level of linear oscillator.
应用能量测不准量公式到介观系统,可得线性谐振子的能级宽度。
Applying the formula into mesoscopic system, we get the energy level of linear oscillator.
应用能量测不准量公式到介观系统,可得线性谐振子的能级宽度。
We report the current-voltage characteristics of quasi-one dimemsional mesoscopic Al line.
我们研究了介观铝超导线的电流-电压关系的特性。
Starting from the classical equation of motion, the mesoscopic parallel LC circuit is quantized.
从经典LC并联电路的运动方程出发,将介观LC并联电路量子化。
A mesoscopic transmission line composed with periodic series of LC circuits is studied in this paper.
研究由多个单元电感电容回路周期性连接而成的介观传输线路。
The mesoscopic dynamics of a chemical chaos model was studied by stochastic simulations in this paper .
本文用随机模拟方法研究了一化学混沌模型的介观动力学。
Simulated results provided the precondition and foundation for mesoscopic mechanical analysis in concrete.
模拟结果为混凝土细观力学分析提供了前提和基础。
Mesoscopic system is not only different from macroscopic system, but also different from microscopic system.
介观系统不同于宏观系统,也不同于微观系统。
The quantum fluctuations of mesoscopic RLC circuit in vacuum state and in thermal vacuum state are considered.
在真空态和热真空态下讨论了介观RLC电路的量子涨落。
We obtain the transmittance in a one-dimensional mesoscopic ring array with the help of quantum waveguide theory.
利用量子波导理论导出了一维介观环链的透射率,并给出了透射率随着入射能量关系变化的曲线。
The response of calcium bursting oscillation to internal noise is studied by solving mesoscopic chemical Langevin equations.
采用介观的化学朗之万方程研究了内噪音对于钙离子阵发振荡行为的影响。
The evolution of quantum state with time in the time-dependent mesoscopic LC circuit containing source is studied in this paper.
研究了介观LC电路在外加电源作用下,系统量子态随时间的演化,分析了实现压缩态的动力学过程。
In chapter one, we introduce typical structure of mesoscopic nano-systems and their characteristics, especially their transport properties.
第一章介绍了介观纳米体系的结构和性质特征,特别是电子输运性质。
Mesoscopic double resonance mutual inductance and capacitance coupling circuit is quantized by the method of harmonic oscillator quantization.
对介观互感电容耦合电路作双模耦合谐振子处理,将其量子化。
The internal boundary of ductile metal was comprehensively studied by the combination of macro-mesoscopic experiment and numerical simulation.
通过宏细观相结和的方法,对韧性金属材料的内界面进行实验研究和数值计算。
At the atomic, molecular, mesoscopic and macroscopic levels, the structure features and intelligences of polymer were also discussed in detail.
在分子、原子、介观和宏观层次上讨论了聚合物的结构和智能性。
By making use of the quantum canonic ensemble theory, the quantum fluctuations of a mesoscopic RLC circuit in the mixed state have been studied.
利用量子正则系综理论研究了介观rlc电路在混合态下的量子涨落。
For different states of the mesoscopic capacitive coupled electric circuit, reduction of quantum fluctuations induced by the coupling was studied.
对于电容耦合电路的不同实际状态,研究了完全由耦合引起的量子涨落减小问题。
A mesoscopic double resonance circuit with mutual inductance and capacitance-inductance coupling was quantized using canonical quantization method.
用正则量子化方法将介观互感容感耦合双谐振电路量子化。
Mesoscopic double resonance circuit with complicated coupling is quantized by the method of harmonic oscillator quantization and linear transformation.
对介观复杂耦合电路作双模耦合谐振子处理,将其量子化。
Based on quantum waveguide theory, the effect of impurities on the transmission probability and the persistent currents in mesoscopic structure is studied.
采用量子波导理论,研究了介观结构中杂质对透射几率和持续电流的影响。
Besed upon the quantization of a mesoscopic dissipation transmission line, the squeezing effect of the line in the amplitude Schrodinger-Cat state was studied.
在介观耗散传输线量子化的基础上,研究了振幅薛定谔猫态下该传输线的压缩特性。
Much of the present studies focus on the effective interaction between electric double layers associated with different mesoscopic charged particles (polyions).
不同介观带电粒子(聚离子)的电双层之间的等效相互作用是目前软物质研究的前沿。
The research results indicate that the amplitude of persistent currents in mesoscopic rings depend not only on the coupling intensity but also on coupling direction.
结果显示,持续电流的幅度不仅受耦合的强度而且还受耦合的相对方向的共同影响。
The mesoscopic transport through a quantum dot and a toroidal carbon nanotube (TCN) coupled system is investigated with the nonequilibrium Green's function technique.
应用非平衡格林函数方法研究通过环形碳纳米管—量子点耦合系统的介观输运。
The mesoscopic transport through a quantum dot and a toroidal carbon nanotube (TCN) coupled system is investigated with the nonequilibrium Green's function technique.
应用非平衡格林函数方法研究通过环形碳纳米管—量子点耦合系统的介观输运。
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