Experimental/ antiferromagnetic properties of substanceschromium compoundsmagnetic transitionsmagnetisation/ magnetisationtwo-sublattice antiferromagnetanisotropic Heisenberg interactionmagnetic phase diagramorthorhombic crystal1.3 to 200 KCrSBr/ A7560E Magnetization curves, hysteresis, Barkhausen and related effects A7...
even small modifications of bond geometry can completely change the size and sign of magnetic exchange interactions and thus the magnetic ground state. Here we report the strain tuning of the magnetic properties of the A-type layered antiferromagnetic semiconductor CrSBr achieved by designing a strain...
the widely used measurement methods in recent studies cannot provide quantitative information of the magnetization nor achieve nanoscale spatial resolution. These capabilities are essential to explore the rich properties of magnetic domains
visualization of the magnetic structure at the surface of the sample. The typical spatial resolution by magnetic force microscopy is∼50 nm. Recently, magnetic force microscopy has been used to image magnetic domains and domain walls in 2D vdW magnets, such as CrI3[376], CrSBr[377], and ...
magnetic properties which facilitates the creation of ultra-thin, high-performance, energy-efficient devices. vdW materials ensure superior interface quality in heterostructures due to their atomically flat surfaces and minimal interlayer diffusion of atomic species. This can enhance spin transparency and ...
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The dynamic properties of the spin-polarized state in CrCl\(_3\)were addressed in Ref. [23] by high-field ESR spectroscopy covering the frequency range up to 350 GHz. In this case the FMR signal of the Cr spins forcefully aligned by the external field\({\textbf{H}}\)appears anisotropic...
These multiparticle architectures are usually called metamolecules or plasmonic oligomers, and their optical properties are defined by the relative position of each sub-unit, in the same way in which the relative position of atoms defines the properties of a molecule. This analogy is surprisingly ...
When monolayers of two-dimensional (2D) materials are stacked into van der Waals structures, interlayer electronic coupling can introduce entirely new properties, as exemplified by recent discoveries of moiré bands that host highly correlated electronic
There has been an increased attention in the properties of superparamagnetic particles recently, because of their potential applications in high density storage and medicine. In electron transport through single nanometer scale magnetic particles, the current can also cause the magnetization to flip ...