# Observation of Q-switched and continuous wave regimes with mode-hopping   in Er-doped fiber lasers incorporating a dynamic population grating

**Authors:** Zengrun Wen, Xiulin Fan, Kaile Wang, Weiming Wang, Song Gao, Wenjing, Hao, Yuanmei Gao, Yangjian Cai, Liren Zheng

arXiv: 2302.12046 · 2023-02-24

## TL;DR

This paper investigates the transition from Q-switched to continuous wave regimes with mode-hopping in erbium-doped fiber lasers influenced by dynamic population gratings, revealing how pump power affects laser dynamics and wavelength stability.

## Contribution

It demonstrates the controllable transition between Q-switched and CW regimes in erbium-doped fiber lasers with DPG, highlighting the effects of pump power on pulse characteristics and mode-hopping behavior.

## Key findings

- Transition from Q-switched to CW achieved by adjusting pump power
- Pulse repetition frequency increases with pump power
- Mode-hopping induces modulation peaks and wavelength fluctuations

## Abstract

Dynamic population gratings (DPGs) in rare-earth doped fibers are prevalent devices in fiber lasers for the production of single-longitudinal-mode emission, Q-switched pulses, and wavelength self-sweeping regimes. This study presents a transition from Q-switched state to continuous wave (CW) state, accompanying irregular mode-hopping, in an erbium-doped fiber laser with a heavily-doped DPG centered at 1549.95 nm. Our results demonstrate that the transition between these two states can be achieved by adjusting the pump power. The repetition frequency of the Q-switched pulse increases monotonically with the increasing pump power, while the pulse duration initially narrows and then expands because the reduced peak intensity weakens the nonlinear effect. Additionally, modulation peaks are evident on both the Q-switched pulse train and the CW background, which are induced by the irregular mode-hopping caused by the DPG. Furthermore, we observe that the central wavelength fluctuates within a range of 0.05 nm. These results provide valuable insight into the DPG effect in heavily-doped fibers.

## Full text

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## Figures

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## References

39 references — full list in the complete paper: https://tomesphere.com/paper/2302.12046/full.md

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Source: https://tomesphere.com/paper/2302.12046