The new perovskite cuprate material Sr8βCaRe3βCu4βO24β, which
behaves ferrimagnetically and shows an unusually high Curie temperature (TcββΌ 440 K), is found from density-functional theory calculation to display
several surprising properties after hole doping or chemical substitution: (1)
Half metal (HM) is realized by replacing Re with W or Mo while Tcβ remains
high; (2) hole-doped Sr8βCaRe3βCu4βO24β is also HM with high
Tcβ. Moreover, we find that the O atoms will carry a large magnetic moment
after hole doping, which is in sharp contrast with the generally accepted
concept that magnetism in solid requires partially filled shells of d or f
electrons in cations. The material Sr8βCaRe3βCu4βO24β is therefore
expected to provide a very useful platform for material design and development.Comment: 5 pages and 4 figure