1·The Curie temperature also shows an anomaly increase.
而且居里温度也呈现反常。
2·Above the Curie temperature there is no spontaneous magnetization.
在居里温度以上,没有自发的磁化。
3·This temperature was later referred to as the 'Curie temperature'.
后来,人们把这个温度叫“居里点”。
4·And the influence to the Curie temperature of (Sr, Pb) TiO_3 was simply study in the end.
最后初步研究了不同锶铅比对材料居里温度的影响。
5·An experiment method is introduced to observe the Curie temperature of magnetic materials.
介绍了一种观察磁性材料居里温度的实验方法。
6·In the present, based on the ZENER model, the Curie temperature of the DMS materials was studied.
计算结果证明:同种基质材料掺杂不同的金属元素,低价元素掺杂形成的DMS材料居里温度较高。
7·The existence of domain walls reduces both the spontaneous polarization and the Curie temperature, and increases the critical size.
畴壁的存在使自发极化和居里温度降低,使临界尺寸增大。
8·The thin films showed dispersion phase transition at the Curie temperature, which tended to shift to the lower temperature with the increasing Mn content.
介温谱表明在居里温度附近发生弥散型相变,且居里温度有向低温方向漂移的趋势。
9·If they do, the next question is: what phenomenon stands in for heat in the case of locusts, pushing them to the entomological equivalent of the Curie temperature?
如果确如预测,那么接下来的问题是:究竟是什么现象代表了事例虫群的温度,驱使它们等效与昆虫学上的居里温度。
10·The outstanding permanent magnetic material Nd2Fe14B possesses very high energy product. But its Curie temperature is a little bit too low for practical application.
是一种磁能积很高的优良的永磁材料,但在实用上稍嫌它的居里温度低了一点。