1.
Strangely, the best electrical conductors, copper and silver, do not become superconductive.
说起来很奇怪,最好的导电体像铜和银都不能成为接近绝对零度仍能导电的超导电体。
2.
electric conductor, for voltage exceeding 80v but not exceeding 1000v
导电体,超过80v但不超过1000v电压用
3.
EFFECT OF HEAT TREATMENT ON THE SUPERCONDUCTIVITY AND MICROSTRUCTURE OF MgB_2
热处理对MgB_2超导体超导电性和显微结构的影响
4.
NEW TYPE BRIDGE FCL BASED ON SUPERCONDUCTING MAGNET AND POWER ELECTRONIC TECHNOLOGY
基于超导磁体和电力电子的新型桥路超导限流器
5.
Study on Quench Protection of High Temperature SMES Magnet in Power Network
电网用高温超导储能磁体的失超保护研究
6.
superconductive single-electron tunnelling effect
超导体的单电子隧道效应
7.
CALCULATE THE INDUCTION EMF OF A SUPERCONDUCTOR IN TRANSVERSE MAGNETIC FIELD
横向磁场中超导体感应电动势的计算
8.
Electromagnetic Design Research on HTS Magnets by Bi-2223/Ag Tape;
Bi系高温超导磁体的电磁设计研究
9.
Electronic Structure of the Tl-System Superconductor;
T1—2223超导体电子结构研究
10.
Design and electromagnetic analysis of ITER TF Magnet Busbar
ITER纵场磁体超导母线设计与电磁分析
11.
Test of a NbTi 7T superconducting magnet
7T大口径NbTi超导磁体降温通电实验
12.
Barrier Interface Scattering Effect on DC Josephson Current in f-Wave Superconductor/f-Wave Superconductor Junctions
f波超导体/绝缘层/f波超导体结中势垒散射对直流Josephson电流的影响
13.
Electromagnetic and Thermal Analysis on Conduction-cooled High Temperature Superconducting Energy Storage Magnet;
传导冷却高温超导储能磁体的电磁热综合分析
14.
The Influence of Shield Current on the Current Distribution in the Superconducting Conductor and Shield in of Cold Dielectric(CD) High-Temperature Superconducting(HTSC) Cables
低温绝缘(CD)高温超导电缆屏蔽层电流对超导电缆导体和屏蔽电流分布的影响
15.
Study on Magnetic Properties of Charge Ordering State in Na_xCoO_2 System and Iron-based Superconductors
Na_xCoO_2体系的电荷有序态和铁基超导体的磁性研究
16.
SMES, superconductivity, quality service, utilities
超导磁场储能,超导,供电质量,电力公司。
17.
the branch of physics that studies the properties of materials in the solid state: electrical conduction in crystals of semiconductors and metals; superconductivity; photoconductivity.
物理学中研究物质在固态中的性质:半导晶体的电流传导,超导电性和光导电性。
18.
The importance of superconductor in the uses of electricity cannot be overestimated.
超导体在电气应用上的重要性不能被估计过高。