Conveners
thursday morning
- Željko Šljivančanin (Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, University of Belgrade)
Spin torques are central to spintronics, enabling current-induced magnetization switching, domain wall motion, and resonant magnetic oscillations in nanoscale devices. While most studies describe spin torques in semi-classical terms, probing their action at the level of a single spin reveals their fundamentally quantum nature. Electron paramagnetic resonance (EPR) performed via scanning...
Abstract body goes here.Spin-orbit coupling (SOC)—a relativistic interaction which entangles a particle’s motion with its quantum mechanical spin—is fundamental to a wide range of physical phenomena, spanning from the formation of topological insulators to the spin Hall effect of light. Recent years have seen remarkable progress in the probing, enhancing and tailoring of SOC in artificial...
Exploring spin, orbital and topological properties of two-dimensional (2D) materials represents a new platform for realizing novel quantum and spin-based phenomena and device applications. Furthermore, engineering 2D heterostructures by combining the best of different materials in one ultimate unit can offer a plethora of opportunities in spintronics. Furthermore, nontrivial topology in the...
Altermagnets are a new class of magnetic materials that combine aspects of ferromagnets and antiferromagnets, possessing zero net magnetization like antiferromagnets but exhibiting (potentially large) spin splitting of the electronic bands and anomalous Hall responses like ferromagnets. Recent research has focused on magnetic systems with odd-parity spin splitting of nonrelativistic origin...
A computational study is presented with the aim to mimic different experimental approaches to tune the magnetic interactions in two-dimensional van der Waals magnets. The tensorial exchange interactions [1] among all relevant atomic pairs are evaluated for CrGeSe$_3$, CrGeTe$_3$, and Janus Cr$_2$Ge$_2$(Se,Te)$_3$ monolayers and their dependence is analyzed on different external parameters,...
Magnetic two-dimensional (2D) materials are at the forefront of research in recent years, owing to their rich yet tunable properties, conveniently integrable in spintronic, magneto-electric and multiferroic functional heterostructures and prospective devices. The exploration and manipulation of those properties requires understanding of the microscopic origin of magnetic exchange, which is a...
