Optoelectronics are promising devices that combine optical components, which operate leveraging light, with electronics, which leverage electrical current. Optoelectronic systems could transmit data faster than conventional electronics, thus opening new possibilities for the development of high-speed communication technology.

Despite their potential, the deployment of optoelectronics has so far been limited, in part due to reported difficulties in synchronizing optically generated signals with those of traditional electronic clocks. These signals are difficult to synchronize as optical and electronic components typically operate at different frequencies.

The frequencies of optical signals (i.e., generally hundreds of gigahertz) are generally significantly higher than those of electronic circuits, which range from megahertz to a few gigahertz. This mismatch in frequencies makes aligning the frequencies of the two types of components challenging, which in turn adversely impacts the reliability and efficiency of optoelectronics.