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Sub-coercive electric fields and sub-picosecond light pulses are shown to enable low-power manipulation of antiferromagnetic domains in the multiferroic BiFeO3.
An electric field is shown to induce an in-plane effective magnetic field enabling the deterministic magnetization switching of a magnetic multilayer on a piezoelectric substrate.
Surface-dominated conduction is found to dominate up to 240 K in the strongly correlated mixed-valence Kondo insulator SmB6 under the application of large strain.
The operational conditions used for electron microscopy can limit the insight that can be gained from fragile material samples. It is shown here how high-resolution TEM analysis of delicate MOFs can be achieved.
A neuromorphic device based on the stable electrochemical fine-tuning of the conductivity of an organic ionic/electronic conductor is realized. These devices show high linearity, low noise and extremely low switching voltage.
An engineered topological insulator-based heterostructure is reported to show transport properties consistent with the realization of an axion insulator.
A very slow vortex creep in BaFe2(As0.67P0.33)2 films is found experimentally. The authors also claim the existence of a universal lower limit on vortex creep for any superconductor.
By pairing a paramagnetic enhancer with a superparamagnetic quencher, their distance-dependent interaction can be applied to image biological processes using MRI.
TSr3Ir2O7 is shown to realize a weak Mott state with no cuprate analogue and to exhibit, when electron doped, a charge density wave-like Fermi surface instability with unconventional and possibly short-ranged nature.