2022年11月7日,《自然•电子学》(Nature Electronics)在线发表了北京航空航天大学材料科学与工程学院刘知琪教授课题组题为“An anomalous Hall effect in altermagnetic ruthenium dioxide”的研究成果。北京航空航天大学博士生冯泽鑫...2022年11月7日,《自然•电子学》(Nature Electronics)在线发表了北京航空航天大学材料科学与工程学院刘知琪教授课题组题为“An anomalous Hall effect in altermagnetic ruthenium dioxide”的研究成果。北京航空航天大学博士生冯泽鑫、周晓荣以及德国美因茨大学LiborŠmejkal博士作为论文共同第一作者。展开更多
Spintronics is a field focusing on the quantum spin degree of freedom of electrons in condensed matter physics and information technology.One of the major tasks in this field is to explore and utilize exotic magnetoel...Spintronics is a field focusing on the quantum spin degree of freedom of electrons in condensed matter physics and information technology.One of the major tasks in this field is to explore and utilize exotic magnetoelectronic effects,which are electrical outputs yielded by the variation of spin vectors or vice versa.For example,the anisotropic magnetoresistance effect is a prototypical magnetoelectronic effect,as the rotation of the magnetic vector of a magnetic material can yield a change in its resistivity.This effect is based on the resulting anisotropic density of states relative to the orientation of the magnetic vector due to the relativistic spin–orbit coupling and the potential distribution of defects.展开更多
文摘2022年11月7日,《自然•电子学》(Nature Electronics)在线发表了北京航空航天大学材料科学与工程学院刘知琪教授课题组题为“An anomalous Hall effect in altermagnetic ruthenium dioxide”的研究成果。北京航空航天大学博士生冯泽鑫、周晓荣以及德国美因茨大学LiborŠmejkal博士作为论文共同第一作者。
基金supported by the National Key Research and Development Program of China(2022YFB3506000 and2022YFA1602701)the National Natural Science Foundation of China(52271235 and 52121001)。
文摘Spintronics is a field focusing on the quantum spin degree of freedom of electrons in condensed matter physics and information technology.One of the major tasks in this field is to explore and utilize exotic magnetoelectronic effects,which are electrical outputs yielded by the variation of spin vectors or vice versa.For example,the anisotropic magnetoresistance effect is a prototypical magnetoelectronic effect,as the rotation of the magnetic vector of a magnetic material can yield a change in its resistivity.This effect is based on the resulting anisotropic density of states relative to the orientation of the magnetic vector due to the relativistic spin–orbit coupling and the potential distribution of defects.