观察多铁性金属有机骨架中的共振量子磁电效应。

Observation of Resonant Quantum Magnetoelectric Effect in a Multiferroic Metal-Organic Framework.

机构信息

State Key Laboratory of Magnetism, Institute of Physics, Chinese Academy of Sciences , Beijing 100190, PR China.

出版信息

J Am Chem Soc. 2016 Jan 27;138(3):782-5. doi: 10.1021/jacs.5b12488. Epub 2016 Jan 13.

Abstract

A resonant quantum magnetoelectric coupling effect has been demonstrated in the multiferroic metal-organic framework of [(CH3)2NH2]Fe(HCOO)3. This material shows a coexistence of a spin-canted antiferromagnetic order and ferroelectricity as well as clear magnetoelectric coupling below TN ≈ 19 K. In addition, a component of single-ion quantum magnets develops below ∼ 8 K because of an intrinsic magnetic phase separation. The stair-shaped magnetic hysteresis loop at 2 K signals resonant quantum tunneling of magnetization. Meanwhile, the magnetic field dependence of dielectric permittivity exhibits sharp peaks just at the critical tunneling fields, evidencing the occurrence of resonant quantum magnetoelectric coupling effect. This resonant effect enables a simple electrical detection of quantum tunneling of magnetization.

摘要

在多铁性金属有机框架[(CH3)2NH2]Fe(HCOO)3中，人们已经观察到了共振量子磁电耦合效应。该材料在 TN ≈ 19 K 以下表现出自旋倾斜反铁磁序和铁电性的共存，以及明显的磁电耦合。此外，由于固有磁相分离，在 ∼ 8 K 以下会出现单离子量子磁体的分量。在 2 K 时呈现出的阶梯状磁滞回线表明了磁矩的共振量子隧穿。同时，介电常数随磁场的变化在临界隧穿场处出现尖锐的峰值，这证明了共振量子磁电耦合效应的发生。这种共振效应使得对磁矩的量子隧穿进行简单的电检测成为可能。

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观察多铁性金属有机骨架中的共振量子磁电效应。

Observation of Resonant Quantum Magnetoelectric Effect in a Multiferroic Metal-Organic Framework.

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