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SrCo2P2 undergoes a pressure-induced collapsed-tetragonal (cT) phase transition transition-driven by interlayer pnictogen bonding resulting in a remarkable near room temperature ferromagnetic ordering (TC up to 260 K) in the cT phase.
Numerical simulations demonstrate a cavity-free metasurface laser capable of controllable, purely circularly polarized output via direct lasing from chiral resonant modes of plasmonic meta-atoms strongly coupled to quantum gain.
The topography of Fermi arcs in trigonal PtBi2 (ti-PtBi2) was revealed. Unlike in other topological materials, the arc in t-PtBi2 is well separated from other bands, which allows precise determination of its end-points, dispersion, and Fermi crossing of the band that forms it.
Terahertz Raman scattering experiments reveal a Fano resonance in ZrTeâ‚…, characterized by Raman mode selectivity and temperature-dependent enhancement.
A direct relation between the atomic-scale structure of the epitaxial graphene - SiC(0001) interface, which includes silicon (Si) vacancies, and local electronic properties has been established.
The magnetic ground state of the Double-trillium Lattice Spin Liquid Candidate KSrFe2(PO4)3 was investigated by nuclear magnetic resonance technique.
This work identifies a new model system to study electron-phonon coupling driven phase transitions. The synthetic procedure introduces a novel flux for discovery and crystal growth of subvalent quantum materials.
CMI technology developed at Ames National Laboratory is described in story about company that holds exclusive license
CMI researchers at Florida Industrial & Phosphate Research Institute (FIPR Institute) conducted the activity for highlight
CMI researchers at Ames National Laboratory conducted the activity for highlight