Dr. Beilkin Lea
We design actively-controlled metastructures to realize autonomous and reprogrammable guiding of acoustic/mechanical waves. This includes:
- waveguding inspired by quantum mechanics,
- waveguding by feedback-based generation of user-defined parameters for unconventional wave transmission, reflection and bending,
- real-time creation of wave absorbers and artificial acoustic fields, and more.
Our research is multi-disciplinary, combining Control Theory, Acoustics, Vibrations, Physics and Electronics. Our work is of a theoretical/computational character, targeting realistic physical systems.
- Autonomous topological waveguiding inspired by quantum mechanics
- Waveguiding by feedback-based generation of user-defined parameters
- Real-time creation of wave absorbers and artificial acoustic fields
- Theoretical analysis of wave equations