Journal ArticleDegenerate optical parametric amplification in CMOS siliconHeydari, David; Cătuneanu, Mircea; Ng, Edwin; Gray, Dodd J.; Hamerly, Ryan; Mishra, Jatadhari; Jankowski, Marc; Fejer, M. M.; Jamshidi, Kambiz; Mabuchi, HideoSilicon is a common material for photonics due to its favorable optical properties in the telecom and mid-wave IR bands, as well as compatibility with a wide range of complementary metal–oxide semiconductor (CMOS) foundry processes. Crystalline inversion symmetry precludes silicon from natively exhibiting second-order nonlinear optical processes. In this work, we build on recent works in silicon photonics that break this material symmetry using large bias fields, thereby enabling χ (2) interactions. Using this approach, we demonstrate both second-harmonic generation (with a normalized efficiency of 0.20%W −1 cm −2 ) and, to our knowledge, the first degenerate χ (2) optical parametric amplifier (with an estimated normalized gain of 0.6dBW −1/2 cm −1 ) using silicon-on-insulator waveguides fabricated in a CMOS-compatible commercial foundry. We expect this technology to enable the integration of novel nonlinear optical devices such as optical parametric amplifiers, oscillators, and frequency converters into large-scale, hybrid photonic–electronic systems by leveraging the extensive ecosystem of CMOS fabrication.2023-01-0110464691Optica1044302334-2536https://doi.org/10.1364/OPTICA.4787022011363; 1918549National Science Foundation