helilainete

Helilainete is a term used in acoustics to describe a class of wave phenomena in which acoustic waves acquire a helical, or corkscrew, phase structure as they propagate through certain media. The effect is analogous to optical orbital angular momentum but involves sound waves and often depends on the medium’s geometry, chirality, or engineered metamaterials that couple spin-like and orbital components of the wavefront.

Key mechanisms include propagation through chiral media, transmission along spiral waveguides, or interaction with metasurfaces that

Generation and measurement rely on devices such as spiral phase plates, acoustic holograms, or arrays of transducers

Applications proposed for helilainete include high-resolution imaging, nondestructive evaluation, acoustic tweezers for manipulating microscopic objects, and

See also: acoustic vortex, orbital angular momentum of sound, phononic crystals, metamaterials, spiral phase plate.