AI Article Synopsis
- Silicon exhibits strong third-order optical nonlinearity facilitating processes like supercontinuum generation and four-wave mixing, but second-order effects are usually limited.
- By breaking the inversion symmetry and using dispersion engineering in a silicon waveguide, the researchers achieved group velocity matching between the pump and the signal to effectively generate a broadband second-harmonic signal.
- The study shows that this method can broaden the second harmonic by 200 nm in the O-band, enabling potential applications in on-chip frequency synthesizers, entangled photon pair generators, and optical parametric oscillators.
Article Abstract
Silicon is well known for its strong third-order optical nonlinearity, exhibiting efficient supercontinuum and four-wave mixing processes. A strong second-order effect that is naturally inhibited in silicon can also be observed, for example, by electrically breaking the inversion symmetry and quasi-phase matching the pump and the signal. To generate an efficient broadband second-harmonic signal, however, the most promising technique requires matching the group velocities of the pump and the signal. In this work, we utilize dispersion engineering of a silicon waveguide to achieve group velocity matching between the pump and the signal, along with an additional degree of freedom to broaden the second harmonic through the strong third-order nonlinearity. We demonstrate that the strong self-phase modulation and cross-phase modulation in silicon help broaden the second harmonic by 200 nm in the O-band. Furthermore, we show a waveguide design that can be used to generate a second-harmonic signal in the entire near-infrared region. Our work paves the way for various applications, such as efficient and broadband complementary-metal oxide semiconductor based on-chip frequency synthesizers, entangled photon pair generators, and optical parametric oscillators.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7005310 | PMC |
| http://dx.doi.org/10.1038/s41377-020-0254-7 | DOI Listing |
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