Temperature dependence of the domain structure in Fe14Nd2B single crystals during the spin-reorientation transition

“…Electron microscopy 8,9 , Kerr optical microscopy, small angle neutron scattering 10 and MFM 11 studies were also carried out using single crystals. These studies reveal that the magnetic structure consists of intriguing fractal patterns that depend on the sample treatment and temperature [10][11][12] . Previous MFM 11 and small angle scattering studies 10 indicated the presence of an even smaller, sub-domain magnetic structure with a typical length scale of 25 -100 nm.…”

Imaging the magnetic nanodomains inNd2Fe14B

“…Electron microscopy 8,9 , Kerr optical microscopy, small angle neutron scattering 10 and MFM 11 studies were also carried out using single crystals. These studies reveal that the magnetic structure consists of intriguing fractal patterns that depend on the sample treatment and temperature [10][11][12] . Previous MFM 11 and small angle scattering studies 10 indicated the presence of an even smaller, sub-domain magnetic structure with a typical length scale of 25 -100 nm.…”

Imaging the magnetic nanodomains inNd2Fe14B

“…These studies reveal the magnetic structure consists of intriguing fractal patterns that depend on sample treatment and temperature [13,48,49]. Previous MFM and small angle scattering studies indicated the presence of an even smaller, sub-domain magnetic structure with a typical length scale of 25-100 nm.…”

Studies of Dirac and Weyl fermions by angle resolved photoemission spectroscopy

“…The configuration of the magnetic fields of scattering of the domain structure was studied additionally by the method of magnetic-force microscopy in a Solver P47 device. The technique of observation of domain structure in the range of low temperatures is described in detail in [7].…”

Domain Structure of R2Fe17 Intermetallic Compounds with Planar-Type Anisotropy