In a study published in Nature Communications, researchers explained a local, fluctuating, orbital-degeneracy-lifted state. A phenomenon likely to be widespread amongst diverse classes of partially filled nominally degenerate d-electron systems.
In a study published in Physical Review Materials, researchers discovered that low spin state for a tetrahedral environment provides a novel platform for spin state manipulation in solid state materials.
In a study published in PNAS, researchers developed a targeted evolution genetic algorithm to create a vortex-pinning genome that can be used to enhance the current carrying capability of high temperature superconductors.
In a study published in Science Advances, researchers presented a machine learning approach in which the conformationally dependent electronic structure of a molecule is mapped directly to CG pseudo-atom configurations.
In a study published in Nature, researchers demonstrate precise, programmable quantum control is essential to a range of applications of surface acoustic waves in the quantum limit, including the coupling of disparate quantum systems.
In a study published in Nature Physics, researchers demonstrate mechanically driven Autler–Townes splittings and magnetically forbidden Rabi oscillations. These results offer a basis for full strain control of three-level spin systems.