Researchers at the University of Twente have solved a long-standing problem: trapping optically-generated sound waves in a standard silicon photonic chip. This discovery, published as a featured article in APL Photonics, opens new possibilities for radio technology, quantum communication, and optical computing.

Light travels extremely fast, while sound waves move much more slowly. By manipulating the interaction between light and sound—a physical phenomenon known as stimulated Brillouin scattering (SBS)—researchers can find new ways to store and filter information in a compact chip.

This is useful in applications such as ultra-fast radio communication and quantum technology. But doing this in silicon photonic chips, one of the most important integrated photonics technologies today, was a major challenge.