Frequency Tuning Ratio Testing of Lasers Based on Hollow Photonic Crystal Fiber Resonator

Ming, 雷明 Lei; Yuan, 方圆 Fang; Huaiyong, 于怀勇 Yu; Yi, 杨怿 Yang; Qiang, 向强 Xiang; Lizhe, 张丽哲 Zhang

doi:10.3788/cjl202047.0301009

中国激光

2020

DOI: 10.3788/cjl202047.0301009

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Frequency Tuning Ratio Testing of Lasers Based on Hollow Photonic Crystal Fiber Resonator

雷明 Lei Ming¹,

方圆 Fang Yuan²,

于怀勇 Yu Huaiyong³

et al.

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Frequency tuning ratio testing of a laser via a hollow photonic crystal fiber resonator

Lei

Yuan

et al. 2020

Appl. Opt.

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In order to satisfy the requirements of laser frequency tuning ratio (FTR) measurement, experimental equipment based on a hollow photonic crystal fiber resonator (HPCFR) is proposed in this paper. First, the principle scheme of the equipment consisting of HPCFR is designed, and the resonance curves of the HPCFR are theoretically analyzed, calculated, and simulated; second, the transmissive HPCFR sample is fabricated and the resonance curve is obtained; eventually, the experimental results from the established laser FTR experimental setup demonstrate that the FTRs of a narrow-linewidth fiber laser and semiconductor laser are 17.6 MHz/V and 30.9 MHz/mA, respectively, which are basically in accordance with the factory parameters of the lasers. This work shows that the FTR experimental equipment via HPCFR has the advantages of high precision and good long-term stability.

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Frequency tuning ratio testing of a laser via a hollow photonic crystal fiber resonator

Lei

Yuan

et al. 2020

Appl. Opt.

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show abstract

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Frequency Tuning Ratio Testing of Lasers Based on Hollow Photonic Crystal Fiber Resonator

Cited by 1 publication

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Frequency tuning ratio testing of a laser via a hollow photonic crystal fiber resonator

Frequency tuning ratio testing of a laser via a hollow photonic crystal fiber resonator

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