TY  - JOUR
JF  - Physical Review B
IS  - 2
TI  - Anisotropy of antiferromagnetic domains in a spin-orbit Mott insulator
PB  - American Physical Society (APS)
N1  - This version is the version of record. For information on re-use, please refer to the publisher?s terms and conditions.
Y1  - 2023/07/01/
ID  - discovery10175107
AV  - public
UR  - https://doi.org/10.1103/PhysRevB.108.L020403
SN  - 2469-9950
A1  - Wu, L
A1  - Wang, W
A1  - Assefa, TA
A1  - Suzana, AF
A1  - Diao, J
A1  - Zhao, H
A1  - Cao, G
A1  - Harder, RJ
A1  - Cha, W
A1  - Kisslinger, K
A1  - Dean, MPM
A1  - Robinson, IK
N2  - The temperature-dependent behavior of magnetic domains plays an essential role in the magnetic properties of materials, leading to widespread applications. However, experimental methods to access the three-dimensional (3D) magnetic domain structures are very limited, especially for antiferromagnets. Over the past decades, the spin-orbit Mott insulator iridate Formula Presented has attracted particular attention because of its interesting magnetic structure and analogy to superconducting cuprates. Here, we apply resonant x-ray magnetic Bragg coherent diffraction imaging to track the real-space 3D evolution of antiferromagnetic ordering inside a Formula Presented single crystal as a function of temperature, finding that the antiferromagnetic domain shows anisotropic changes. The anisotropy of the domain shape reveals the underlying anisotropy of the antiferromagnetic coupling strength within Formula Presented. These results demonstrate the high potential significance of 3D domain imaging in magnetism research.
VL  - 108
ER  -