Erbium+3-doped fiber-ring laser tunability optimization

This paper reports the design optimization of a novel tunable dual wavelength erbium doped fiber ring laser. The effects of pump wavelength, active fiber length, and coupling ratio on threshold pump power, output power, and side mode suppression ratio (SMSR) of the lasers are investigated. Pumping a

## Abstract The erbium‐doped fiber ring laser (EDFL) exhibits a wavelength shift that results from the variation of its intracavity parameters, namely, the output‐coupler reflectivity (R), active fiber length (L), and optical losses (α) in the resonant cavity. A simple and fast technique for predic

## Abstract By using a broadband fiber mirror (BFM), a wavelength tunable erbium‐doped fiber laser (TEDFL) is demonstrated composed with tunable fiber Bragg grating (TFBG). The BFM acts as a broadband reflector both for the lasing signal and pump source. At pumping power of 100 mW, stable laser out

This paper presents an ultra wideband tunable silicabased erbium doped fiber ring laser (EDFRL) that can be continuously tuned in S and C+L bands from 1475 to 1619 nm. It is the first time that a fiber ring laser's tuning range reaches 144 nm using a standard silica-based C-band erbium-doped fiber a

In this paper, a broadband wavelength-tunable erbium-doped fiber (EDF) ring laser with single longitudinal mode (SLM) output achieving 82.6 nm lasing bandwidth from 1481.0 to 1563.6 nm is proposed and experimentally demonstrated. For the proposed laser scheme, the S-and C-band erbium-doped fiber amp

## Abstract An erbium‐doped fiber‐ring laser (EDFL) with more than 50 nm of continuous wavelength tuning was achieved and analyzed through a numerical approach. An angle‐tuned Fabry–Perot etalon was incorporated in the laser cavity as the wavelength‐selective element. The numerical values are in cl