高温超导材料的研究目前有了很大的进展。
At present the study of high Tc superconductive materials has been made progress rapidly.
介绍了高温超导材料RT曲线用微机的测试方法。
The measuring method of R T curves of High Tc sample by computer is described.
简略介绍以玻璃与陶瓷为基体的高温超导材料的各种制取工艺。
This paper briefly introduces various prepared technology of high-temperature superconductor on glass and ceramics.
结果表明,高温超导材料属于具有部分离子性和部分共价性的晶体。
It shows that the high Tc superconductors are the crystals with both ionic and covalent properties.
人们在研究中发现高温超导材料对许多气体的氧化还原反应有很强的催化能力。
In study people discover that some high Tc superconductive materials exhibit high catalytic activity for gases oxidation or reduction.
介绍了高温超导材料研究与开发动向,重点科研课题及高温超导材料的实用化前景。
This paper introduced tendency for research and development, important research subjects and future pragmatization of high-Tc superconductor materials.
杂质对铜氧化物高温超导材料物理性质的影响的研究是高温超导机理研究的热点之一。
The study of the effects of nonmagnetic impurities in copper oxide materials is one of the hotspot issues to understand the mechanism of the high Tc materials.
高温超导材料的发现,引起了众多科学家的关注并进行研究,使得高温超导体的临界温度提高到液氮温度以上。
The finding of high temperature superconductor (HTS) made a lot of scientists research and study it, then critical temperature of HTS was on the increase.
本文综述了近年来利用激光制备高温超导薄膜和超导单晶材料的研究进展。
This paper reviewed recent research advances in preparing high temperature superconducting thin films and crystal materials with lasers.
由此可以较好地解释高温超导氧化物材料的超导转变温度随空穴浓度的变化行为。
We can explain that the transfer temperature of high temperature superconductive oxides change along with the concentration of holes.
自从在铜氧化物材料中发现高温超导电性以来,人们一直试图在其他层状金属氧化物中寻找同样的行为。
Since the discovery of the high-transition-temperature superconductivity in layered copper oxides, many researchers have searched for similar behaviour in other layered metal oxides.
高温超导体属于强关联电子材料,其中电子、自旋和晶格自由度之间存在较强的相互作用。
High-temperature superconductors are strongly correlated electronic materials, in which spin, charge, lattice are simultaneously active.
本文从准二维玻色凝聚出发,研究了层状高温超导氧化物材料中,层厚度和氧空位对临界温度的影响。
Starting from the quasi-two dimensional Bose condensation, we studied the influence of layer-thickness and ox gen-vacancy on the critical temperature T_c in real high-T_c, superconductors.
本文从准二维玻色凝聚出发,研究了层状高温超导氧化物材料中,层厚度和氧空位对临界温度的影响。
Starting from the quasi-two dimensional Bose condensation, we studied the influence of layer-thickness and ox gen-vacancy on the critical temperature T_c in real high-T_c, superconductors.
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