某些镧合金及化合物的超导转变温度的增加与纯镧加压等当。
The increase of superconductive transition temperature in some compounds and alloys of Lanthanum is equivalent to applying pressure to Lanthanum.
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.
对系统的介电函数作了RPA近似计算,得到了超导转变温度的表达式,并讨论了混合对效应。
The RPA approximation is used to calculate the dielectric function, to derive the expression for the superconducting transition temperature and to discuss the effect of hybrid pairs.
的超导电性能进行了系统测量,发现随着镁和锶掺杂量的增加,样品的超导转变温度总体呈明显降低趋势。
The result indicates that superconductivity transition temperature has a tendency of obvious dropping with the increase of Mg and Sr substituting quantity.
结果表明,声子的量子化能量、纳米颗粒的晶格点阵热容和纳米颗粒的超导转变温度均与声子的量子尺寸、状态量子数及时间量子数有关。
It was shown that the quantized phonon energy, the nano-particles' crystal lattice specific heat and superconductivity transition temperature all related to the phonon'…
超导体的转变温度和临界电流密度是两个经常要测量的参数。
A superconductor's transition temperature and critical current density are two commonly measured parameters.
在一定参数范围内,这种夹层系统的T_c是有可能高于大块BCS超导体的转变温度。
The transition temperature of this kind of sandwich is probably higher than the T_c of the bulk BCS superconductor within certain range of parameters.
某些金属能被磁化,例如铁、钴和镍。在极低的温度下,某些金属和金属化合物能转变成超导体。
Some metals, such as iron, cobalt and nickel, are magnetic. At low temperatures, some metals and intermetallic compounds become superconductors.
在极低的温度下,某些金属和金属化合物能转变成超导体。
At low temperatures, some metals and intermetallic compounds become superconductors.
在极低的温度下,某些金属和金属化合物能转变成超导体。
At low temperatures, some metals and intermetallic compounds become superconductors.
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