High entropy ceramics provide enhanced flexibility for tailoring a wide range of physical properties, emerging from the diverse chemical and configurational degrees of freedom.
Neutron scattering reveals easy and complete switching between planar and axial spins upon doping with Li in antiferromagnetic MnTe. Easy control of the spin orientation is a crucial step towards increasing functionalities and developing easy
Large-scale numerical calculations reveal fluctuating spin and charge stripes intertwined with pair-density-wave
Manipulation of matter at the nanoscale in functional nanostructures allows to harness nanoscale and even quantum phenomena, with applications in electronics, plasmonics, optoelectronics, and sensing.
Researchers revealed atomic-level correlated motion of water molecules at the crucial picosecond timescale to evaluate the dynamic nature of the liquid by using coherent X-ray scattering. This research could revolutionize understanding and control
Novel defect control and chemical doping strategies are discovered to suppress the detrimental bulk conduction in the antiferromagnetic topological insulators MnBi2Te4 and MnBi4Te7. The results of this wo
Researchers proposed a new strategy to explore various quantum phases and used it to predict the first room-temperature quantum anomalous Hall effect in a 2D post-transition metal system.
Neutron scattering experiments revealed how emergent multi-spin clusters suppress conventional magnetic ordering in a frustrated pyrochlore magnet