Widely Tunable RF Signal Generation Using an InP/Si<sub>3</sub>N<sub>4</sub> Hybrid Integrated Dual-Wavelength Optical Heterodyne Source

Robinson Guzmán; Luis González; Alberto Zarzuelo; Jessica Cesar Cuello; Muhsin Ali; Ilka Visscher; Robert Grootjans; Jörn P. Epping; Chris G. H. Roeloffzen; Guillermo Carpintero

Journal of Lightwave Technology
Vol. 39,
Issue 24,
pp. 7664-7671
(2021)

Widely Tunable RF Signal Generation Using an InP/Si₃N₄ Hybrid Integrated Dual-Wavelength Optical Heterodyne Source

Robinson Guzmán, Luis González, Alberto Zarzuelo, Jessica Cesar Cuello, Muhsin Ali, Ilka Visscher, Robert Grootjans, Jörn P. Epping, Chris G. H. Roeloffzen, and Guillermo Carpintero

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Robinson Guzmán, Luis González, Alberto Zarzuelo, Jessica Cesar Cuello, Muhsin Ali, Ilka Visscher, Robert Grootjans, Jörn P. Epping, Chris G. H. Roeloffzen, and Guillermo Carpintero, "Widely Tunable RF Signal Generation Using an InP/Si₃N₄ Hybrid Integrated Dual-Wavelength Optical Heterodyne Source," J. Lightwave Technol. 39, 7664-7671 (2021)

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Abstract

Photonics-based techniques spearhead the generation of high-frequency signals in the millimeter-and Terahertz wave, crucial for ultrabroadband mobile wireless link development. Photonic integration is enabling to provide the photonic approach with added advantages of energy-efficiency, flexibility and scalability, in addition to signal quality. We present an optical heterodyne system based on a novel dual laser module containing two InP-Si₃N₄ hybrid lasers with intracavity wavelength selective optical filters with output optical power per laser of up to 15 dBm (31 mW), wide wavelength tuning of about 60 nm, and narrow optical linewidth below 100 kHz. To the best of our knowledge, we present for the first time the continuous-wave generation of RF frequencies over a wide tuning range from C-band (4 GHz – 8-GHz) to W-band (75 GHz – 110 GHz) achieving record low RF electrical linewidth around 108 kHz and long-term drift < 12 MHz with two free-running lasers. This is the best beat-note linewidth obtained with such an integrated source in a free-runnning regime and with a wide tuning range ever reported.

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Journal of Lightwave Technology