Air-gap Fabry–Pérot cavity filtered 30 nm broadband electro-optic frequency combs for high-order coherent communications

Chenbo Zhang; Yixiao Zhu; Bibo He; Rongwei Liu; Zhangyuan Chen; Weiwei Hu; Xiaopeng Xie

doi:10.1364/OL.467447

Optics Letters
Vol. 47,
Issue 15,
pp. 3724-3727
(2022)
•https://doi.org/10.1364/OL.467447

Air-gap Fabry–Pérot cavity filtered 30 nm broadband electro-optic frequency combs for high-order coherent communications

Chenbo Zhang, Yixiao Zhu, Bibo He, Rongwei Liu, Zhangyuan Chen, Weiwei Hu, and Xiaopeng Xie

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Chenbo Zhang, Yixiao Zhu, Bibo He, Rongwei Liu, Zhangyuan Chen, Weiwei Hu, and Xiaopeng Xie, "Air-gap Fabry–Pérot cavity filtered 30 nm broadband electro-optic frequency combs for high-order coherent communications," Opt. Lett. 47, 3724-3727 (2022)

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Abstract

Broadband electro-optic (EO) frequency combs, which have flexible and high repetition frequencies, are prospective light sources for dense-wavelength-division-multiplexed coherent optical communications. In most cases, nonlinear spectral broadening and amplification procedures are needed to achieve broadband and high-power EO frequency combs. This leads to a low optical carrier-to-noise ratio (OCNR) for comb lines, limiting the transmission capacity. Here, we propose to use an air-gap Fabry–Pérot (FP) cavity to improve the OCNR for all the comb lines covering a 30 nm broadband spectrum. A 12 dB OCNR (0.1 nm bandwidth) improvement is obtained experimentally via using an FP cavity with ∼790 MHz bandwidth. We apply a 150-channel filtered EO comb with 25 GHz channel spacing and load 20 GBaud signals on each comb line to demonstrate the effect of OCNR improvement. The 137/150 channels have a bit error rate below the threshold of soft-decision forward error correction when using the 128 quadrature amplitude modulation (QAM) format. However, none of these channels can support this modulation format without cavity filtering. We also investigate dispersion tolerance and the long-term stability when using an air-gap FP cavity, highlighting its advantages. Our results show a practical solution to boost the transmission capacity when applying broadband EO combs in optical communications.

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Data underlying the results presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request.

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Comb Number	$\pm$ 25	$\pm$ 50	$\pm$ 75	Long Term
MRR: frequency offset (MHz)	32.0	128.1	288.3	$\pm$ 500
MRR: attenuation of OCNR improvement (dB)	0.0	0.4	1.9	>14.1
Brillouin amplification: frequency offset (MHz)	35.6	71.3	106.9	—
Brillouin amplification: attenuation of OCNR improvement (dB)	$\sim$ 18	>20	>20	—

Abstract

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