Correlated states in β-Li2IrO3 driven by applied magnetic fields

被引：0

作者：

Alejandro Ruiz

Alex Frano

Nicholas P. Breznay

Itamar Kimchi

Toni Helm

Iain Oswald

Julia Y. Chan

R. J. Birgeneau

Zahirul Islam

James G. Analytis

机构：

[1] University of California,Department of Physics

[2] Materials Sciences Division,Department of Physics

[3] Lawrence Berkeley National Laboratory,Department of Chemistry

[4] Advanced Light Source,undefined

[5] Lawrence Berkeley National Laboratory,undefined

[6] Massachusetts Institute of Technology,undefined

[7] The University of Texas at Dallas,undefined

[8] Advanced Photon Source,undefined

[9] Argonne National Laboratory,undefined

来源：

Nature Communications | / 8卷

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摘要：

Magnetic honeycomb iridates are thought to show strongly spin-anisotropic exchange interactions which, when highly frustrated, lead to an exotic state of matter known as the Kitaev quantum spin liquid. However, in all known examples these materials magnetically order at finite temperatures, the scale of which may imply weak frustration. Here we show that the application of a relatively small magnetic field drives the three-dimensional magnet β-Li2IrO3 from its incommensurate ground state into a quantum correlated paramagnet. Interestingly, this paramagnetic state admixes a zig-zag spin mode analogous to the zig-zag order seen in other Mott-Kitaev compounds. The rapid onset of the field-induced correlated state implies the exchange interactions are delicately balanced, leading to strong frustration and a near degeneracy of different ground states.

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