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Waves, acoustics, and photonics

Non-repeating tiled surfaces for scattering, diffraction, and waveguide studies.

Overview

When waves meet structure, geometry matters. Non-repeating tiled surfaces can become candidate layouts for scattering, focusing, diffusion, diffraction, beam shaping, and waveguide studies.[2][1]

Aperiodic tile array styled for wave and diffraction studies
Simulation-ready boundaries. Polygonal cells for comparing how periodic, random, and aperiodic scatterers interact with waves.
  • Acoustic panels, speaker geometry, concert halls, ultrasound focusing, and acoustic lenses
  • Lens design, diffraction control, waveguides, holography, beam shaping, and photonic layouts
  • Simulation-ready polygons for comparing periodic, random, and aperiodic boundaries

See also

Materials science and fluids, Signal processing and imaging

Categories: Research frontiers