对应于铁磁及反铁磁相变,其结果与已知的严格解及最好近似解一致。
In the case of the ferromagnetic and antiferromagnetic phase transitions, the results are in agreement with the known exact and the best approximate ones very satifatorily.
就中子物质计算并讨论了二体中心势中各成分对出现铁磁相变临界密度的影响。
The effect of each composition of two-body central potential on the critical density for ferromagnetic transition is calculated for neutron matter.
最常见的相变有顺磁-铁磁相变、液体-气体相变和金属中的超导-常态相变等。
The commonest phase transitions are the paramagnetic-ferromagnetic phase transition, the liquid-gas phase transition and the superconductive-normality phase transition in the metals.
这些材料的一个显著特点是,在低温时,母体化合物会发生结构相变和反铁磁相变。
One of the most remarkable character of these materials is that the parent compounds have a structure transition and a antiferromagnetic transition at low temperatures.
因此,我们认为样品的结构与磁相变存在很强的耦合作用,并且可能是由于自旋涨落引起的。
The results provides clear evidence of strong magnetic-lattice coupling and suggests that the magnetic fluctuations may be the driving force for the structural-AFM phase transition.
还计算了在M - S势作用下的中子物质出现铁磁相变的临界密度、含有铁磁相变的物态方程及中子星模型。
For neutron matter with M-S interaction, the critical density of the ferromagnetic transition, the equation of state and the neutron star models are calculated.
人们普遍认为,超导的产生应该和磁性阻挫有着内在的联系,因为磁性阻挫很可能会导致结构相变和反铁磁相变。
It is widely expected that the superconductivity should be intrinsically connected to the frustrated magnetic correlations which presumably cause both structure and antiferromagnetic transitions.
我们主要注意磁光型存储的非晶态稀土-过渡金属合金薄膜和相变型光存储的非晶态半导体薄膜两个方面。
The main attention has been paid on amorphous rare earth- transition metal alloy films for magneto-optical storage and amorphous semiconductor films for phase change optical storage.
发现采用商业级钆配制合金时,由于杂质抑制了材料的一级相变,未发现巨磁热效应。
The first order phase transformation in the samples made of commercial Gd was destroyed by impurities, and no giant magnetocaloric effect was found.
反铁磁转变存在模量软化,马氏体相变也具有声学软模。
Antiferromagnetic transition has soft modulus effect while martensitic transformation is also accompanied by a soft phonon mode.
“相变储能”、“超导磁储能”、“超级电容器”、“锂离子电池”、“储能材料”等是储能技术领域的重要研究主题。
We found that phase change energy storage, superconducting magnetic energy storage, supercapacitor, lithium ion battery and energy storage materials are major research topics in this field.
其次,我们讨论了自旋为1的易磁化轴反铁磁海森堡链的量子相变。
Furthermore, the quantum phase transition in an easy-axis antiferromagnetic Heisenberg spin-1 chain is numerically studied.
提出了单相变压器副绕组全励磁控制系统。
Come up with a single phase transformer full excitation system with secondly winding.
揭示磁稀释的相变特征以及研究磁掺杂的渗流特性和热动力学行为具有实际的应用价值。
It has a valuable and practical application to find the phase transition properties as well as study the percolation properties and thermodynamic behaviors.
磁特性,这些结果可以解释的基础上,相变和显微组织的合金。
These results of magnetic properties can be explained on the basis of phase transformation and microstructure of the alloy.
磁特性,这些结果可以解释的基础上,相变和显微组织的合金。
These results of magnetic properties can be explained on the basis of phase transformation and microstructure of the alloy.
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