受挫磁体中的自旋液体。

Spin liquids in frustrated magnets.

机构信息

Kavli Institute for Theoretical Physics, University of California, Santa Barbara, Santa Barbara, California 93106, USA.

出版信息

Nature. 2010 Mar 11;464(7286):199-208. doi: 10.1038/nature08917.

PMID:20220838

Abstract

Frustrated magnets are materials in which localized magnetic moments, or spins, interact through competing exchange interactions that cannot be simultaneously satisfied, giving rise to a large degeneracy of the system ground state. Under certain conditions, this can lead to the formation of fluid-like states of matter, so-called spin liquids, in which the constituent spins are highly correlated but still fluctuate strongly down to a temperature of absolute zero. The fluctuations of the spins in a spin liquid can be classical or quantum and show remarkable collective phenomena such as emergent gauge fields and fractional particle excitations. This exotic behaviour is now being uncovered in the laboratory, providing insight into the properties of spin liquids and challenges to the theoretical description of these materials.

摘要

受挫的磁体是指局部磁矩（或自旋）通过竞争交换相互作用而不能同时满足的材料，这导致系统基态的大简并。在某些条件下，这可能导致物质形成类似流体的状态，即所谓的自旋液体，其中组成的自旋高度相关，但仍然强烈波动到绝对零度。自旋液体中自旋的波动可以是经典的或量子的，并表现出显著的集体现象，如涌现规范场和分数粒子激发。这种奇特的行为现在正在实验室中被揭示出来，为研究自旋液体的性质提供了新的认识，并对这些材料的理论描述提出了挑战。

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受挫磁体中的自旋液体。

Spin liquids in frustrated magnets.

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