Computes nonlocal effective kernels for thermal bianisotropy in periodic laminates using three homogenization methods, revealing consistent cross-coupling terms and direction-dependent thermal impedance.
2023 Diffusion metamaterials.Nature Reviews Physics5, 218–235
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A local entropic lattice Boltzmann scheme recovers the full-tensor anisotropic advection-diffusion equation via flux-ghost population splitting, tensorial relaxation, and an ADE-corrected entropic stabilizer, with validations on 3D benchmarks up to 10^4 anisotropy ratios.
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Nonlocal thermal Willis coupling in laminated conductors
Computes nonlocal effective kernels for thermal bianisotropy in periodic laminates using three homogenization methods, revealing consistent cross-coupling terms and direction-dependent thermal impedance.
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Entropic lattice Boltzmann method for general anisotropic advection--diffusion
A local entropic lattice Boltzmann scheme recovers the full-tensor anisotropic advection-diffusion equation via flux-ghost population splitting, tensorial relaxation, and an ADE-corrected entropic stabilizer, with validations on 3D benchmarks up to 10^4 anisotropy ratios.