Optical frequency synthesizer with an integrated erbium tunable laser

Optical frequency synthesizers have widespread applications in optical spectroscopy, frequency metrology, and many other fields. However, their applicability is currently limited by size, cost, and power consumption. Silicon photonics technology, which is compatible with complementary-metal-oxide-semiconductor fabrication processes, provides a low-cost, compact size, lightweight, and low-power-consumption solution. In this work, we demonstrate an optical frequency synthesizer using a fully integrated silicon-based tunable laser. The synthesizer can be self-calibrated by tuning the repetition rate of the internal mode-locked laser. A 20 nm tuning range from 1544 to 1564 nm is achieved with ~10 −13 frequency instability at 10 s averaging time. Its flexibility and fast reconfigurability are also demonstrated by fine tuning the synthesizer and generating arbitrary specified patterns over time-frequency coordinates. This work promotes the frequency stability of silicon-based integrated tunable lasers and paves the way toward chip-scale low-cost optical frequency synthesizers. Photonics: Highly tunable optical frequency synthesizer for on-chip applications A tiny synthesizer capable of producing finely tuned laser light could prove invaluable in photonics applications. Radio frequency synthesizers, which have long been used in communications technologies, generate a range of frequencies from a single input. The ability to fine-tune light frequencies in the same way could transform data transmission and precision navigation devices, but the size, cost and power consumption of existing optical frequency synthesizer (OFS) designs make them impractical for applications outside scientific laboratories. Now, Ming Xin, Nanxi Li at Massachusetts Institute of Technology, Cambridge, United States, and the co-workers have developed an OFS that is fully compatible with CMOS technology, which has the potential to radically reduce the volume and cost of OFSs. Their OFS uses an integrated laser doped with erbium, enabling wide tunability across a broad wavelength range.