Wavelength-tuning analysis of erbium-doped fiber-ring laser

## Abstract A tunable dual‐wavelength Er‐doped fiber laser (EDFL) is proposed and demonstrated. By applying axial and lateral strain simultaneously on the fiber Bragg grating (FBG), the absolute wavelength and wavelength spacing of the Er‐doped fiber laser can be tuned continuously. © 2004 Wiley Pe

## 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

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 A ring erbium‐doped fiber (EDF) laser with an additional EDF saturable absorber operating in the L‐band can produce dual‐wavelength optical bistability. The bistabilities of the two wavelengths evolves in antiphase; the dual‐wavelength bistable behavior can be controlled by the cavity l

## Abstract A multi‐wavelength ytterbium‐doped fiber‐ring laser is obtained using a spatial‐mode beating filter, placing a section of a G.652 fiber sample into the single Yb‐doped fiber ring cavity. Up to six stable laser wavelengths can be obtained in the region of 1030 nm at room temperature. By

In this paper, we present the results concerning the tunability optimization of an Er q 3 -doped fiber-ring laser. The influence of the doped-fiber length, host matrix, and reflecti¨ity of the de¨ice on the tunability and performance of the laser is discussed. We obtained the parameters which will b