从传统的关于宏观和微观的观点来看,纳米材料是一种介于微观和宏观之间 的领域一介观系统(Mesoscopy)。这种介观系统赋予纳米材料特殊的量子效应、 体积效应、量子尺寸效应和宏观量子隧道效应等,从而产生奇异的力学、电学、 磁学、...
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Our aim is to explore the physical mechanisms of the new effects in mesoscopic systems, and to supply physical models and make theoretical validity in designing novel quantum devices with better properties.
其目的 在于揭示介观系统中的新效应的其物理机制,并为设计和实现具有优良性 能的量子器件提供物理模型和理论依据。
参考来源 - 介观系统中的电子输运·2,447,543篇论文数据,部分数据来源于NoteExpress
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.
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