Microscopic Magnetic Characterization of Quantum Criticality in LaCrGe3 The fluctuations associated with quantum-critical points have been considered crucial for the stabilization of intriguing phenomena.
Interplay between weak topological insulating states and van Hove singularities Time reversal symmetric (TRS) invariant topological insulators (TIs) fulfill a paradigmatic role in the field of topological materials, standing at the origin of its development.
Navigating Ferromagnetic Quantum Criticality The fluctuations, associated with quantum-critical points have been considered crucial for the stabilization of intriguing phenomena.
Creating Magnetic Memories with Rare Earths Layered intermetallic compounds with rare-earth elements link science of three-dimensional structures with science of two-dimensional thin films and multilayers
The origin of two-dimensional polymer-grafted Au-nanoparticle lattice Designing complex functional nanostructures requires a high level of control over the individual system components
Robust pressure correction for piston-cylinder cells The temperature- and pressure-dependence of the resistance of manganin wire was determined for use as a manometer.
Elucidating electron spatial confinement in 2-d materials In situ growth and metal adsorption experiments confirmed the broad bell-shaped component (BSC) of the broad diffraction background results from electron spatial confinement.
Assembling and Orienting Anisotropic Nanostructures Nonspherical nanostructures were assembled to form 2D and 3D structures via functionalized polymers.
Cuckoo-Inspired, Fast Model Design of High-Entropy Alloys We accelerate computational design of high-entropy alloys with targeted disorder by ultrafast model generation using a metaheuristic Hybrid Cuckoo Search (CS).
Light induced Weyl semimetals with exceptional ballistic transport Topological phase transitions may be controlled by a coherent light-induced phononic symmetry switch, without the application of static electric or magnetic fields.