In a study published in Advanced Materials, researchers studied the effect of interfacial bond‐breaking on the dynamic and static behavior of ferroelectric domain walls, as well as the local structural properties.
In a study published in Physical Review X, researchers compare the electronic structures of cuprates and nickelates to explore the origin of high-temperature superconductivity.
In a study published in the Physical Review Letters, researchers investigated the unique topological band structure of Weyl semimetals and its effect on spin-to-charge conversion. The study could provide new means to manipulate quantum materials.
In a study published in the Physical Review Letters, researchers used Bragg coherent diffraction imaging to reveal the compositional evolution of nanoparticles and demonstrate its effect on synthesis of electrocatalysts.
In a study published in Scientific Reports, researchers offer a theoretical platform for the topology of non-reciprocal spin devices for spintronics and magnonics.
In a study published in Nature Materials, researchers describe a new scattering technique to probe the structural evolution of cathode materials to inform creation of better battery materials.
In a study published in the Physical Review Letters, researchers resolve the long-standing puzzle of the origin of the Hall effect sign reversal in superconductors.
In a study published in Nature Communications, researchers indicated their results showcase a contribution of orbital behavior in the emergence of intriguing phenomena.
In a study published in Physical Review Letters, researchers report a novel mechanism for a non-equilibrium phase transition from a Bose-Einstein condensate of polaritons to a photon laser.
In a study published in Physical Review X, researchers indicated that taken together, experiments and simulations demonstrate a system in which strain and geometry can be combined to dynamically manipulate pattern formation in active matter.