论文标题
超质系统中配对的通用尺寸依赖性:电子纳米驱动器和原子核
Generic size dependences of pairing in ultrasmall systems: electronic nano-devices and atomic nuclei
论文作者
论文摘要
通过半经典方法研究电子设备的平均,全球配对行为,例如膜,电线和晶粒,因为Weyl和Thomas-Fermi近似在Ultrasmall中,即量化状态,这些量子表现出强大的量子波动和壳效应。超流体核也是这种情况。结果主要是分析性的,以平均尺寸依赖性详细阐述,在其他情况下也可以轻松使用。在可能的情况下给出与实验结果的比较。
Average, global pairing behaviours of electronic devices, like films, wires, and grains are studied with semiclassical methods, as Weyl and Thomas-Fermi approximations, in the ultrasmall, i.e., quantal regime, which exhibits strong quantum fluctuations and shell effects. This is the case also for superfluid nuclei. Results, mostly analytic, are elaborated for average size dependences, ready for easy use also in other circumstances. Comparisons with experimental results are given where possible.
