Topological materials
Topology protected electronic states offer a unique opportunity to explore relativistic quantum phenomena in condensed matter systems. While these are extremely important for fundamental physics understanding, topological materials are predicted to be an indispensable part of future quantum technologies developments.
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Van der Waals systems
Van der Waals compounds - the bulding block of present functional device technologies, posess enormous potential and opportunities for optoelectronic applications. They offer high degree of tunability through construction of heterostructures and unique twistonics moire patterns. Furthermore their physical properties drastically vary from bulk to nanometer thicknesses.
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Frustrated magnets
Local magnetic interactions at atomic level in certain crystallographic motifs produce frustrated magnetisms. These complex magnetic states lead to unconvensional magneto-electronic properties including new quantum states such as spin liquid, heavy fermions, and spin-density waves.
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New quantum materials
Let's explore.
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