Abstract

A dual 830 and 980 nm pumping scheme is proposed aiming at broadening and flattening the spectral performance of bismuth/erbium codoped multicomponent fiber (BEDF). The spectral properties of distinct Bi active centers (BACs) associated with germanium (BAC-Ge), aluminium (BAC-Al), phosphorus (BAC-P) and silicon (BAC-Si) are characterized under single pumping of 830 and 980 nm, respectively. Based on the emission slope efficiencies of BAC-Al (∼1100 nm) and BAC-Si (∼1430 nm) under single pumping of 830 and 980 nm, the dual pumping scheme with the optimal pump power ratio of 25 (980 nm VS 830 nm) is determined to achieve flat, ultrabroadband luminescence spectra covering the wavelength range 950-1600 nm. The dual pumping scheme is further demonstrated on the on-off gain performance of BEDF. It is found under the pump power ratio of ∼8 (980 VS 830 nm), The gain spectrum has been flattened and broadened over 300 nm (1300-1600 nm) with an average gain coefficient of ∼1.5 dBm-1. The spectral coverage is approximately 1.5 and 3 times wider compared to single pumping of 830 and 980 nm pumping, respectively. The energy level diagrams of 830 and 980 nm are also constructed separately in view of the optical characteristic, which further clarifies the advantage for dual pumping. The proposed dual 830 and 980 nm pumping scheme with the multicomponent BEDF shows great potential in various broadband optical applications such as uniform ASE source, broadband amplifier and tuneable laser in NIR band.

Highlights

  • Enhanced broadband near-IR luminescence and gain spectra of bismuth/erbium codoped fiber by 830 and 980 nm dual pumping

  • Since the first discovery of near infrared (NIR) luminescence in bismuth (Bi)-doped silicate glass in 1999,1 great attention has been paid to Bi-doped devices aiming at exploiting spectral gaps (1.1-1.5 μm) for rare earth doped media.[2,3,4,5]

  • Significant challenge is the development of broadband application for Bi/Er codoped fiber (BEDF), Zinat and J

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Summary

Introduction

Enhanced broadband near-IR luminescence and gain spectra of bismuth/erbium codoped fiber by 830 and 980 nm dual pumping. Luo firstly made the efforts for 532 and 808 nm dual pumping.[14] it only investigated the dependence of emission wavelengths for BACs on the pump wavelength, neither the flat luminescence nor the broadband gain in the 1000-1600 nm was reported for the BEDF.

Results
Conclusion

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