In superconductors, the bosons are the pairs of bound electrons that form at the Fermi surface.
在超导体中,玻色子是在费密表面形成的束缚态电子对。
The quantitative results about shift of Fermi surface, widening of energy band width and varying of atomic valence of each crystal site are given.
给出了高压下费米面移动、能带展宽和各晶位原子价变化的定量结果。
It was also found that antinodal electrons in underdoped LSCO experience some extra strong scattering process, which may be related to the Fermi surface topology.
并且发现欠掺杂LSCO反节点电子遭受到额外的强散射过程,这可能与费米面的拓扑行为有关。
And because superconducting electron pairs only occur near the Fermi surface, in the vicinity of the images of Fermi surface, the study on this issue is very important.
由于超导凝聚电子对一般只发生在费米面附近,费米面的图像的研究,对于这个问题的研究有很重要的意义。
Surface impedance of metals in infrared region is calculated for an arbitrary Fermi surface. Expressions applicable to all cases of skin-effect (normal, anomalous and intermediate) are obtained.
本文中对任意费米面求出了金属在红外波段的表面电阻,所得表达式适用于各种性质的趋肤效应(正常、反常和中间情况)。
Finally, according to the concept of quasi-heterojunction the Fermi energy level pinning on the surface is discussed.
从准异质结的概念出发,讨论了表面费米能级钉扎现象。
The simple methods are put forward to calculate Fermi level and edge level of sulfide mineral by means of potential of mineral electrode and zeta potential of mineral surface.
提出采用矿物浮选常用参数,即矿物静电位和矿物颗粒表面动电位来计算硫化矿物的费米能级和边缘能级的简便方法。
The simple methods are put forward to calculate Fermi level and edge level of sulfide mineral by means of potential of mineral electrode and zeta potential of mineral surface.
提出采用矿物浮选常用参数,即矿物静电位和矿物颗粒表面动电位来计算硫化矿物的费米能级和边缘能级的简便方法。
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