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Area A: Magnetic band topology |
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A1: Tuning topological electronic states and topological magnons |
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A2: Spin-charge conversion and topological magnons in magnetic Weyl semimetals |
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A3: Atomic-scale visualization of magnetic-field-tuned states in topological structures |
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A4: Imaging mesoscale magnetic textures in topological magnets |
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A5: Optical conductivities and entanglement in magnetic topological semimetals |
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A6: Global band topology: from point crossings and nodal planes to Kondo-Weyl fermions |
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Area B: Entangled states of matter |
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B1: New faces of Kitaev materials: chemical, pressure, and strain tuning |
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B2: Photon scattering from spin-orbit materials |
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B3: Dynamics of rare-earth-based frustrated magnets |
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B4: Magnetic resonance spectroscopy on quantum spin liquids and Weyl semimetals |
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B5: Thermal conductivity and thermal Hall effect of frustrated magnets |
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B6: Dynamics of correlated quantum magnets |
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Area C: Non-equilibrium dynamics |
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C1: Kinetic arrest and quantum annealing in model systems |
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C2: Unconventional dynamics at the mesoscale in constrained spin systems |
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C3: Dynamically driven quantum correlations |
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C4: Ultrastrong matter-magnon coupling phenomena |
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C5: Constrained quantum many-body dynamics |
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C6: Manipulating correlated quantum magnets by a periodic drive |
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C7: Cavity-based control of quantum magnets: frustration, entanglement, and competing orders |
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Supporting Projects |
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Ö: ConQuMat goes public (public relations) |
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MGK: Integrated research training group |
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MM: Mercator Fellows |
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Z: Central Tasks |
