单晶Ca3Ru2O7中的自旋阀效应和磁电阻率。

Spin valve effect and magnetoresistivity in single crystalline Ca3Ru2O7.

作者信息

Bao Wei, Mao Z Q, Qu Z, Lynn J W

机构信息

Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA.

出版信息

Phys Rev Lett. 2008 Jun 20;100(24):247203. doi: 10.1103/PhysRevLett.100.247203. Epub 2008 Jun 17.

DOI:10.1103/PhysRevLett.100.247203

PMID:18643623

Abstract

The laminar perovskite Ca3Ru2O7 naturally forms ferromagnetic double layers of alternating moment directions, as in the spin-valve superlattices. The mechanism of the huge magnetoresistive effect in the material has been controversial due to a lack of clear understanding of various magnetic phases and phase transitions. In this neutron diffraction study in a magnetic field, we identify four different magnetic phases in Ca3Ru2O7 and determine all first-order and second-order phase transitions between them. The spin-valve mechanism then readily explains the dominant magnetoresistive effect in Ca3Ru2O7.

摘要

层状钙钛矿Ca3Ru2O7自然形成具有交替磁矩方向的铁磁双层，就像自旋阀超晶格一样。由于对各种磁相和相变缺乏清晰的理解，该材料中巨大磁阻效应的机制一直存在争议。在这项磁场中的中子衍射研究中，我们识别出Ca3Ru2O7中的四种不同磁相，并确定它们之间所有的一级和二级相变。自旋阀机制随后很容易解释Ca3Ru2O7中的主导磁阻效应。

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单晶Ca3Ru2O7中的自旋阀效应和磁电阻率。

Spin valve effect and magnetoresistivity in single crystalline Ca3Ru2O7.

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