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This advanced theory enables the in silico design of better polarizing agents and DNP matrices. The structure of core-shell materials can now be determined by predicting the spatial distribution of DNP enhancements.
Interplay of temperature, salt concentration, pH, and interpolymer complexation (IPC) provides an unparalleled diverse set of control parameters to assemble nanoparticles and nanostructures
The role of nematicity on the relationship between AFM fluctuations and superconductivity was discovered in
iron-based superconductor Fe(Se1-xSx) systems.
iron-based superconductor Fe(Se1-xSx) systems.
Strong electron-electron interactions can give rise to an energy gap without breaking crystal translational symmetry. This leads to a unique state, a 3D version of nonabelian 2D fractional quantum Hall liquids. The properties of this exotic state may be useful in quantum computing applications.
An atomistic understanding of the QD surface structure will facilitate the development of more environmentally robust QDs.
Frustration can lead to topological magnetic textures, such as skyrmions, that modify the anomalous transport of topological fermions.
Harnessing of phonon coherence and symmetry demonstrates “Rashba engineering” of spin-split bands for multifunctional devices.
A topological switching principle is established by periodically driven, Raman phonon oscillations.
Time-dependence of such periodic driving is revealed which is needed for topological transistors and THz quantum gate applications.
Time-dependence of such periodic driving is revealed which is needed for topological transistors and THz quantum gate applications.
The unique topological band crossings in the magnetic Weyl semimetal controls the spin-to-charge conversion. This provides novel pathways to manipulate the effect and can be exploited in potential applications in quantum materials.