他们认为这可能与在所谓的赝能隙相位期间的电子活动有关,而室温处在这段超导电性受到破坏的温度范围内。
They knew it had something to do with electron behavior during the so-called pseudogap phase, a temp range where superconductivity breaks down.
在这两种超导体材料中,超导电性是由于电子成双成对地集结在单一的量子态所产生,这是物理学家已知的部份。
Physicists know that in both types of material the superconductivity is caused by electrons pairing up and gathering en masse in a single collective quantum state.
然而,导电性不仅是由沿纳米纤维方向移动的自由电子来传送,陶瓷间的水层中的离子也可以导电。
However, the electricity is not only transported by the electrons that move along the nanofibres, but also by ions in the water layers between the ceramic.
混合导体透氧膜是一类同时具有电子和氧离子两类导电性的陶瓷膜。
Mixed-conducting oxygen permeable membrane is a kind of ceramic membrane, which exhibits both electronic and oxygen ionic conductivity.
近年来,随着电子技术的迅猛发展,导电性高分子材料越来越引起人们的重视。
In recent years, more and more attentions were paid to the conductive polymer materials with the rapid development of the electron technology.
可以大大提高电极的导电性和电子转移速率,同时还可以改进电极的稳定性。
The carbon paste can greatly improve the electrical conductivity and the electron transfer rate of the electrode, and simultaneously can improve the stability of the electrode.
黄铜展品优良的导电性,使之成为一项受欢迎的材料在电子领域。
Brass exhibits excellent electrical conductivity, making it a popular material in the electronics field.
本文对微电子固体薄膜结构,以及影响薄膜电阻导电性和稳定性的因素进行了研究和分析。
This paper study and analysis microelectronic solid film construction and factor that effect the film resistor conductivity and constantity.
弥散强化铜具有良好的导电性和高温性能等,广泛应用于汽车、电子等行业。
Dispersion strengthened copper (DSC) is widely used in automobile and electronic industry because of its excellent conductivity and high-temperature property.
尤其是它具有大的长径比,低的功函数,良好的导电性和纳米级的尖端,使其能够在相对较低的电压下就能长时间地发射电子,因此被认为是一种优良的 场 致 发射阴极。
The reason, Fang says, is simple: Carbon nanotubes have a very low field-emission voltage, which means lower voltage is needed to emit the electrons that produce an image.
尤其是它具有大的长径比,低的功函数,良好的导电性和纳米级的尖端,使其能够在相对较低的电压下就能长时间地发射电子,因此被认为是一种优良的 场 致 发射阴极。
The reason, Fang says, is simple: Carbon nanotubes have a very low field-emission voltage, which means lower voltage is needed to emit the electrons that produce an image.
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