Q-switched pulse generation by stimulated Brillouin scattering assisted four-wave mixing effect in erbium–bismuth co-doped multi-elements silica glass based optical fiber laser

Author:

Ghosh A,Ali H N A,Arsad N,Samanta U K,Das S,Dhar A,Rosol A H A,Yasin M,Harun S W,Paul M C

Abstract

Abstract We demonstrate Q-switched pulse generation at the 1562.5 nm region by using a 70 cm long erbium–bismuth co-doped alumina–germania–hafnium–yttria silica glass-based fiber as a gain medium in a simple ring resonator configured without saturable absorber and optical isolator devices. The Q-switching was obtained based on a stimulated Brillouin scattering assisted four-wave mixing effect in the gain medium, which induced the intensity modulation mechanism. The laser produced a multi-wavelength output comb centered at 1562.6 nm with a peak-to-peak spacing of about 0.09 nm due to nonlinear effects. Stable Q-switched operation of a hafnia–bismuth–erbium co-doped fiber laser was obtained at a pump power range of 129–319 mW with the repetition rate varying from 45.9 kHz to 89.3 kHz and the pulse width ranging from 8.8 µs to 3.58 µs. A maximum pulse energy of 26.9 nJ at an average output power of 2.4 dBm was achieved. This demonstrates a new passive technique based on a highly nonlinear gain medium for realizing Q-switched all-fiber laser sources.

Publisher

IOP Publishing

Subject

Industrial and Manufacturing Engineering,Condensed Matter Physics,Instrumentation,Atomic and Molecular Physics, and Optics

Reference29 articles.

1. Highly stable tunable dual-wavelength Q-switched fiber laser for DIAL applications;Sharma;IEEE Photonics Technol. Lett.,2004

2. Fiber lasers continue to gain market share in material processing applications;Shiner;Manuf. Eng.,2016

3. Laser applications in bio-medical field;Cutruneo,2012

4. Multi-pulse operation in an actively Q-switched Er-doped fiber laser based on electro-optic modulator;Zhang;Optoelectron. Lett.,2021

5. 100–300 Hz repetition-rate acousto-optic Q-switched 2.79 μm Er: YSGG laser side-pumped by laser-diode;Cui;Infrared Phys. Technol.,2019

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