Houling Ji scite author profile

Houling Ji

4Publications

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Southern University of Science and Technology

Publications

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High-power two-color Kerr frequency comb generation on the gallium phosphide-on-insulator platform at SWIR and MIR spectra

Geng

Chen

et al. 2023

J. Opt. Soc. Am. B

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Optical frequency combs (OFCs) covering multiple spectral windows are of great interest as broadband coherent light sources. Pushing into high powers for traditional single OFCs as well as nonlinear frequency translated OFCs led to the narrowing of their bandwidths. Here, we present a hybrid integrated solution on the gallium phosphide-on-insulator (GaP-OI) platform to generate high-power two-color Kerr frequency combs at both the short-wave infrared (SWIR) and the mid-infrared (MIR) spectra. The design consists of a GaP-OI resonator with a partially etched gap for frequency comb generation at the two colors and a modal phase-matched strip waveguide for a second-harmonic generation (SHG). The resonator has a 3.25 µm wide anomalous dispersion window, which is enabled by mode hybridization and higher-order modes waveguide dispersion. The pump light at 1550 nm wavelength is frequency doubled from the 3100 nm wavelength light source, with a normalized SHG conversion efficiency of 793%W−1cm−2. We also propose the ring-bus coupler design to efficiently deliver optical power into the resonator while suppressing the leakage out of the resonator. The simulated two-color combs show a bandwidth of 87 nm above the −30dBm power level at the SWIR spectrum and a bandwidth of 749 nm above the same power level at the MIR spectrum. Our proposed two-color OFC generation scheme levitates the ceiling in terms of high power and broad bandwidth simultaneously on a single platform, paving the way toward monolithic solutions to integrated broadband coherent sources.

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Wafer-scale inverted gallium phosphide-on-insulator rib waveguides for nonlinear photonics

Cheng

Geng

et al. 2023

Opt. Lett.

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We report a gallium phosphide-on-insulator (GaP-OI) photonic platform fabricated by an intermediate-layer bonding process aiming to increase the manufacture scalability in a low-cost manner. This is enabled by the “etch-n-transfer” sequence, which results in inverted rib waveguide structures. The shallow-etched 1.8 µm-wide waveguide has a propagation loss of 23.5 dB/cm at 1550 nm wavelength. Supercontinuum generation based on the self-phase modulation effect is observed when the waveguides are pumped by femtosecond pulses. The nonlinear refractive index of GaP, n2, is extracted to be 1.9 × 10−17 m2/W, demonstrating the great promise of the GaP-OI platform in third-order nonlinear applications.

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GaP-OI Resonator Design for Octave-spanning Kerr Soliton Frequency Comb Generation

Zhao

Geng

et al. 2022

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Flexible Dispersion Engineering in Thin GaP-OI Frequency Comb Resonator Design

Geng

et al. 2022

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Houling Ji

High-power two-color Kerr frequency comb generation on the gallium phosphide-on-insulator platform at SWIR and MIR spectra

Wafer-scale inverted gallium phosphide-on-insulator rib waveguides for nonlinear photonics

GaP-OI Resonator Design for Octave-spanning Kerr Soliton Frequency Comb Generation

Flexible Dispersion Engineering in Thin GaP-OI Frequency Comb Resonator Design

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