Wave propagation in two-dimensional periodic lattices
Indexed incrossrefpubmed
Abstract
Plane wave propagation in infinite two-dimensional periodic lattices is investigated using Floquet-Bloch principles. Frequency bandgaps and spatial filtering phenomena are examined in four representative planar lattice topologies: hexagonal honeycomb, Kagomé lattice, triangular honeycomb, and the square honeycomb. These topologies exhibit dramatic differences in their long-wavelength deformation properties. Long-wavelength asymptotes to the dispersion curves based on homogenization theory are in good agreement with the numerical results for each of the four lattices. The slenderness ratio of the constituent beams of the lattice (or relative density) has a significant influence on the band structure. The…
Citation impact
695
total citations
- FWCI
- 6.63
- Percentile
- 100%
- References
- 19
Citations per year
Authors
3Topics & keywords
Keywords
- Lattice (music)
- Planar
- Wavelength
- Anisotropy
- Square lattice
- Homogenization (climate)
- Wave propagation
- Bloch wave
UN Sustainable Development Goals
- Sustainable cities and communities
No related works found for this paper.