Holographic imaging of antiferromagnetic domains with in-situ magnetic field
Optics Express Optica Publishing Group 32:4 (2024) 5885-5897
Abstract:
Lensless coherent x-ray imaging techniques have great potential for high-resolution imaging of magnetic systems with a variety of in-situ perturbations. Despite many investigations of ferromagnets, extending these techniques to the study of other magnetic materials, primarily antiferromagnets, is lacking. Here, we demonstrate the first (to our knowledge) study of an antiferromagnet using holographic imaging through the 'holography with extended reference by autocorrelation linear differential operation' technique. Energy-dependent contrast with both linearly and circularly polarized x-rays are demonstrated. Antiferromagnetic domains and topological textures are studied in the presence of applied magnetic fields, demonstrating quasi-cyclic domain reconfiguration up to 500 mT.Spatially reconfigurable antiferromagnetic states in topologically rich free-standing nanomembranes
University of Oxford (2024)
Abstract:
The datasets included herein contain experimental results (Scanning transmission X-ray microscopy, X-ray diffraction, electron diffraction, confocal microscopy etc.) and related theoretical analysis for the investigation of antiferromagnetic topological textures in freestanding membranes. The steps used in the obtaining, reducing and analysing the datasets can be found in the Methods and Supplementary Information sections of the published manuscript.Holographic imaging of antiferromagnetic domains with in-situ magnetic field
(2023)
Revealing Emergent Magnetic Charge in an Antiferromagnet with Diamond Quantum Magnetometry
(2023)
Spatially reconfigurable topological textures in freestanding antiferromagnetic nanomembranes
(2023)