Numerical simulations of polar-apolar active mixtures reveal an intermediate regime of spatiotemporal chaos featuring high-density chaotic bands and continual creation/annihilation of half-integer topological defects, quantified by density fluctuation spectra and maximal Lyapunov exponent.
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A theoretical framework shows that voltage-controlled nematic liquid crystals can electrically tune photon group velocity, temporal walk-off, and two-photon entanglement properties.
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Spatiotemporal Chaos and Defect Proliferation in Polar-Apolar Active Mixture
Numerical simulations of polar-apolar active mixtures reveal an intermediate regime of spatiotemporal chaos featuring high-density chaotic bands and continual creation/annihilation of half-integer topological defects, quantified by density fluctuation spectra and maximal Lyapunov exponent.
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Electro-optically controlled photon group velocity, temporal walk-off and two-photon entanglement via nematic liquid crystal
A theoretical framework shows that voltage-controlled nematic liquid crystals can electrically tune photon group velocity, temporal walk-off, and two-photon entanglement properties.