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 Advanced Materials, researchers show results describing a generic framework for the construction of dynamic systems and devices with an array of field‐tunable properties.

In a study published in Nature Photonics, researchers indicated the observed nonequilibrium anisotropic structural dynamics agrees with first-principles modelling in both real and momentum space.

In a study published in Physical Review Letters, researchers discovered a giant anisotropy of Gilbert damping, by 400%, in metallic epitaxial Co50Fe50 thin film devices.

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.

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 Science Advances, researchers investigated the effects of the TiO2 adlayer on layer-by-layer growth using different deposition sequences and anomalous x-ray scattering.

In a study published in Advanced Electronic Materials, researchers developed work in the quantitative relationship between the surface and bulk electronic structures provides guide for precise engineering of the oxygen‐vacancy‐induced 2DEG in SrTiO3.

In a study published in Scientific Reports, researchers determined the spatial distribution of the defects optimizing the critical current and found that it is in general non-uniform and asymmetric.