中文摘要：

用密度泛函理论方法仔细研究了新型钙钛矿铜氧材料Sr8CaRe3Cu4O24的电子结构和磁性性质，发现掺杂将使得这种材料表现出非常奇特的性质：（1）用W或Mo替代Re，将使得材料变成半金属，同时它的磁转变温度仍然很高；（2）对Sr8CaRe3Cu4O24进行空穴掺杂，也将使它变为具有高磁转变温度的半金属材料。更为奇特的是，空穴掺杂将导致O原子上有很大的磁矩。因此，Sr8CaRe3Cu4O24很有可能是一种有广阔应用前景的磁性材料。

英文摘要：

The new perovskite cuprate material Sr8CaRe3Cu4O24, which behaves ferrimagnetically and shows an unusually high Curie temperature （Tc =440 K） , is found from density-functional theory calculation to display several surprising properties after hole doping or chemical substitution. Half- metal behavior is realized by replacing Re with W or Mo while Tc remains high. The hole- doped Sr8CaRe3Cu4O24is also a half- metal with high Tc. Moreover, we find that the O atoms will carry a large magnetic moment after hole doping, which is in sharp contrast to the generally accepted concept that magnetism in solids requires partially filled shells of d or f electrons in cations. The material Sr8CaRe3Cu4O24 is therefore expected to provide a very useful platform for material design and development.