A string theory and graph Laplacian model recovers the Jiron-Castellon virtual volumes for nematic liquid crystals and predicts anisotropic thermal expansion and refractive indices to better than 0.06% accuracy with no fitted parameters.
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Quasi-periodic driving of a four-level system creates temporal analogs of quantum spin Hall and higher-order topological insulators, yielding quantized energy exchange rates between drives due to synthetic edge or corner modes.
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First-Principles Prediction of Material Properties from Topological Invariants
A string theory and graph Laplacian model recovers the Jiron-Castellon virtual volumes for nematic liquid crystals and predicts anisotropic thermal expansion and refractive indices to better than 0.06% accuracy with no fitted parameters.
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Topological energy pumping in a quasi-periodically driven four-level system
Quasi-periodic driving of a four-level system creates temporal analogs of quantum spin Hall and higher-order topological insulators, yielding quantized energy exchange rates between drives due to synthetic edge or corner modes.