Topology optimization designs polarized metamaterials and inspires augmented kagome Maxwell lattices achieving up to three edge state mismatch with experimental validation.
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cond-mat.mtrl-sci 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
A two-stage topology optimization framework places localized defect modes at prescribed frequencies in phononic crystals while preserving the host bandgap using a mode-selection function.
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Boosting lattice polarization Mixing the perspectives of geometry optimization and cell-augmentation
Topology optimization designs polarized metamaterials and inspires augmented kagome Maxwell lattices achieving up to three edge state mismatch with experimental validation.
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Gradient-Based Topology Optimization of Localized Defect Modes with Bandgap Preservation in Phononic Crystals
A two-stage topology optimization framework places localized defect modes at prescribed frequencies in phononic crystals while preserving the host bandgap using a mode-selection function.