Perspectives on Devices for Integrated Phononic Circuits

Abstract The phonon wavelength, being much shorter than that of photons at the same frequency, offers phononic devices a unique niche in radio frequency (RF) applications. However, the current limitations of these devices, particularly their restricted functionality, hinder their broader integration and application. Currently, many functions are achieved using alternative signal forms like electric and photonic signals, requiring bulky converters to transform between phonon signals and other forms. The development of functional phononic devices paves the way for integrated phononic circuits, which aim to minimize the need for signal conversion while accomplishing all necessary functions. In this perspective, a brief overview of several types of functional phononic devices is provided that hold promise for integration, such as phononic modulators, amplifiers, lasers, nonreciprocal devices, and those inspired by topological physics. It is envisioned that through continued developments in materials, fabrication techniques, and designs, it's possible to realize integrated phononic circuits which will be applied in miniaturized communication devices with reduced size, weight, power consumption, and cost (SWaP‐C), as well as in other fields including quantum information science, sensing, biomedical engineering, and beyond.