Quantum magnets with geometrical frustration stand out due to their highly degenerate ground states and their susceptibility to be tuned by applying pressure or magnetic field [1]. Such tuning can lead to quantum phase transitions from ordered to disordered states, or vice versa, with the emergent quantum critical points (QCPs) determining the deformed entropy landscapes in the respective...
The interest in low-dimensional magnetism (LDM) is manifold, but can be summarized in two categories. First, it provides a rich test bed for fundamental research in many-body quantum phenomena to study the influences of restricted exchange pathways, frustration and enhanced quantum fluctuations. Second, LDM has been shown to have links with various phenomena such as high-temperature...
Chiral magnetic materials are of great interest due to their potential to host noncollinear and non-coplanar spin textures, driven by the Dzyaloshinskii-Moriya (DM) interaction arising from the lack of inversion and mirror symmetry. These interactions, alongside crystal field effects and symmetric exchange, can stabilize exotic magnetic phases such as helical order and magnetic skyrmions,...
Rare-earth orthochromites (RCrO₃) have attracted widespread attention in recent years due to their rich physical properties and potential applications in spintronics, thermomagnetic switches, photocatalysts, and low-temperature magnetic refrigeration [1-3]. RCrO₃ exhibits canted antiferromagnetic behavior with the canting caused by the Dzyaloshinskii–Moriya interactions and the interaction...
