All-optical carrier recovery for self-homodyne detection via injection locked Brillouin laser in whispering-gallery-mode microcavity

Boyuan Liu; Yong Geng; Qiang Zhang; Xinjie Han; Jing Xu; Heng Zhou; Kun Qiu

doi:10.3788/COL202119.111901

Journals >Chinese Optics Letters >Volume 19 >Issue 11 >Page 111901 > Article

Chinese Optics Letters
Vol. 19, Issue 11, 111901 (2021)

All-optical carrier recovery for self-homodyne detection via injection locked Brillouin laser in whispering-gallery-mode microcavity

Boyuan Liu¹, Yong Geng^1、*, Qiang Zhang¹, Xinjie Han¹, Jing Xu², Heng Zhou¹, and Kun Qiu¹

Author Affiliations

¹School of Information and Communication Engineering, University of Electronic Science and Technology of China, Chengdu 611731, China

²Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology, Wuhan 430074, China

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DOI: 10.3788/COL202119.111901 Cite this Article Set citation alerts

Boyuan Liu, Yong Geng, Qiang Zhang, Xinjie Han, Jing Xu, Heng Zhou, Kun Qiu. All-optical carrier recovery for self-homodyne detection via injection locked Brillouin laser in whispering-gallery-mode microcavity[J]. Chinese Optics Letters, 2021, 19(11): 111901 Copy Citation Text

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Fig. 1. Comparison of all-optical carrier recovery using (a) free-running and (b) injection locked Brillouin laser in optical microcavity.

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Demonstration of injection locking of a Brillouin laser in a WGM microcavity. (a) Experimental setup of our study. The inset shows the optical microscopic photo of the silica micro-rod cavity used in our experiment. (b) Ring down measurement of a microcavity mode exhibiting a Q-factor of 2.6 billion. (c) Optical spectra of the Brillouin laser and the AM sideband used as the seed laser. (d) Comparison of the beat note between the generated Brillouin laser and the pump laser with or without injection locking. The inset shows the close-up beat note spectrum at −10 dB injection ratio. (e) Injection locking range of Brillouin laser under different injection ratios.

Fig. 2. Demonstration of injection locking of a Brillouin laser in a WGM microcavity. (a) Experimental setup of our study. The inset shows the optical microscopic photo of the silica micro-rod cavity used in our experiment. (b) Ring down measurement of a microcavity mode exhibiting a Q-factor of 2.6 billion. (c) Optical spectra of the Brillouin laser and the AM sideband used as the seed laser. (d) Comparison of the beat note between the generated Brillouin laser and the pump laser with or without injection locking. The inset shows the close-up beat note spectrum at −10 dB injection ratio. (e) Injection locking range of Brillouin laser under different injection ratios.

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Fig. 3. Demonstration of all-optical recovery and SHD data receiving using injection locked Brillouin laser. (a) Experimental setup. (b) SNR, constellation map, and BER measurement of the received 16-QAM OFDM data signal. (c) Phase drifts between the data signal and LO using injection locked and free-running Brillouin lasers.

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