介观系统不同于宏观系统,也不同于微观系统。
Mesoscopic system is not only different from macroscopic system, but also different from microscopic system.
最近几年,很多工作者研究了介观系统的散粒噪声。
In the last few years, much attention has been paid to the study of shot noise in the mesoscopic systems.
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。
Applying the formula into mesoscopic system, we get the energy level of linear oscillator.
接着阐述了量子主方程方法及其在研究电子在介观系统中量子输运的全计数统计中的应用。
Then, we introduce the quantum master equation method and its application in the full counting statistics of the electron transport through a mesoscopic system.
其次,给出量子相干振荡的标准量子力学理论,它既适用于宏观系统,亦适用于微观和介观系统;
Secondly, a standard quantum mechanical formalism of quantum coherent oscillation is given, which apply either to macroscopic systems, or to micro- and mesoscopic systems.
提出了交变流动热机的介观热力循环理论,系统地分析交变流动热机中关键部件的热力过程。
The thermodynamic processes of key elements used in cyclic flow engines are systematically analyzed and then Meso-scope thermodynamic theory for cyclic flow engines is proposed.
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.
基于电荷离散化的事实,运用最小平移算符的性质,计算介观金属双环系统中电荷、电流以及能量的量子涨落,研究影响量子涨落的因素。
On the basis of the charge discreteness, the quantum fluctuations fo the charge, current and energy in the mesoscopic metal dual rings are calculated by the minimum shift operator.
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。
The evolution of quantum state with time in the time-dependent mesoscopic LC circuit containing source is studied in this paper.
在NLC给药系统中,药物与载体以及脂质载体之间的相容性是决定NLC的微观和介观结构,载药能力,稳定性等药剂学性质的关键因素。
In NLC drug delivery systems, the compatibility of drug and lipid carriers is the key element to determine the structure of microscopic and mesoscopic, drug-loading capacity and stability.
在确定的温度下,系统将处在混合态,进一步得到有限温度下含源介观LC电路的量子涨落。
In a definite temperature, the system will be in a mixed state, further, we obtain the quantum fluctuations in mesoscopic LC circuit with a power source in a finite temperature.
通过正则化变换 ,研究了耗散介观电容耦合电路的量子化 ,并讨论了系统中电荷和广义电流的量子涨落 。
The quantization of a general mesoscopic RLC circuit with source by series-mounting is studied by using a new canonical transformation satisfied condition.
通过正则化变换 ,研究了耗散介观电容耦合电路的量子化 ,并讨论了系统中电荷和广义电流的量子涨落 。
The quantization of a general mesoscopic RLC circuit with source by series-mounting is studied by using a new canonical transformation satisfied condition.
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