Frontiers of Optoelectronics (Jan 2024)

High power tunable Raman fiber laser at 1.2 μm waveband

  • Yang Zhang,
  • Jiangming Xu,
  • Junrui Liang,
  • Jun Ye,
  • Sicheng Li,
  • Xiaoya Ma,
  • Zhiyong Pan,
  • Jinyong Leng,
  • Pu Zhou

DOI
https://doi.org/10.1007/s12200-024-00105-7
Journal volume & issue
Vol. 17, no. 1
pp. 1 – 8

Abstract

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Abstract Development of a high power fiber laser at special waveband, which is difficult to achieve by conventional rare-earth-doped fibers, is a significant challenge. One of the most common methods for achieving lasing at special wavelength is Raman conversion. Phosphorus-doped fiber (PDF), due to the phosphorus-related large frequency shift Raman peak at 40 THz, is a great choice for large frequency shift Raman conversion. Here, by adopting 150 m large mode area triple-clad PDF as Raman gain medium, and a novel wavelength-selective feedback mechanism to suppress the silica-related Raman emission, we build a high power cladding-pumped Raman fiber laser at 1.2 μm waveband. A Raman signal with power up to 735.8 W at 1252.7 nm is obtained. To the best of our knowledge, this is the highest output power ever reported for fiber lasers at 1.2 μm waveband. Moreover, by tuning the wavelength of the pump source, a tunable Raman output of more than 450 W over a wavelength range of 1240.6–1252.7 nm is demonstrated. This work proves PDF’s advantage in high power large frequency shift Raman conversion with a cladding pump scheme, thus providing a good solution for a high power laser source at special waveband. Graphical Abstract

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