凝聚态物理
铁磁性
塞贝克系数
材料科学
磁性半导体
自旋(空气动力学)
半导体
无缝回放
休斯勒化合物
磁电阻
Berry连接和曲率
铁磁性
带隙
居里温度
物理
磁化
热电效应
磁场
量子力学
热力学
光电子学
几何相位
作者
Siham Ouardi,Gerhard H. Fecher,Claudia Felser,J. Kübler
标识
DOI:10.1103/physrevlett.110.100401
摘要
Recent studies have reported an interesting class of semiconductor materials that bridge the gap between semiconductors and half-metallic ferromagnets. These materials, called spin gapless semiconductors, exhibit a band gap in one of the spin channels and a zero band gap in the other and thus allow for tunable spin transport. Here, we report the first experimental verification of the spin gapless magnetic semiconductor Mn(2)CoAl, an inverse Heusler compound with a Curie temperature of 720 K and a magnetic moment of 2 μ(B). Below 300 K, the compound exhibits nearly temperature-independent conductivity, very low, temperature-independent carrier concentration, and a vanishing Seebeck coefficient. The anomalous Hall effect is comparatively low, which is explained by the symmetry properties of the Berry curvature. Mn(2) CoAl is not only suitable material for room temperature semiconductor spintronics, the robust spin polarization of the spin gapless semiconductors makes it very promising material for spintronics in general.
科研通智能强力驱动
Strongly Powered by AbleSci AI