研究结果表明押存在耗散元件的介观电路的库仑阻塞效应不仅与电路的非耗散有关熏而且与耗散电阻有关。

Our research results show that the condition for Coulomb blockade in the dissipative mesoscopic circuit is related not only to the non-dissipative component, but also to the dissipative resistance.

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对玻璃中半导体量子点的生长过程、量子点的电子态，量子尺寸效应、库仑阻塞效应及介电效应，做了比较全面的介绍。

The growth and the electronic state of quantum dots, quantum size-dependent effects, Coulomb blockade effects and dielectric effects are described.

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因此，限制效应改变了电子能水平，就好像一个装在盒子中的颗粒，这就是为什么电荷的离散特性会导致库仑阻塞效应的原因。

Thus, confinement effects modify electron energy levels, similar to a particle in a box, whereby Coulomb blockade effect arises as a consequence of the discrete nature of electric charges.

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因此，限制效应改变了电子能水平，就好像一个装在盒子中的颗粒，这就是为什么电荷的离散特性会导致库仑阻塞效应的原因。

Thus, confinement effects modify electron energy levels, similar to a particle in a box, whereby Coulomb blockade effect arises as a consequence of the discrete nature of electric charges.

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