A mechanical analogue of Faraday's law for waves in chiral elastic media

Faraday's law on electromagnetic induction, one of the most fundamental laws of nature, indicates that a change of magnetic field through a coil wire induces a current in the wire. Electromagnetic induction has many paramount technological applications today, and provides the link between electric and magnetic fields, which is crucial to explain the existence of electromagnetic waves. In our quest to replicate Faraday's law for mechanical systems, we design an infinite mass-spring "helix-like structure", which consists of a helix and a central line, and implement Bloch-Floquet conditions to obtain travelling wave solutions to the proposed problem. The structure's geometrical chirality is considered in conjunction with a dynamic chirality, introduced by placing gyroscopes along its central line. It is shown that the interplay between these two chiralities acts as a mechanical analogue of Faraday's law, breaking the symmetry of the associated dispersion diagram.