Dual-Wavelength Bi-Doped Fiber Laser Based on Cascaded Cavities

TL;DR

This paper investigates a dual-wavelength bismuth-doped fiber laser operating near 1700 nm, combining theoretical modeling and experimental validation to demonstrate tunable dual-wavelength operation within a cascaded cavity setup.

Contribution

It introduces a novel dual-wavelength fiber laser design using cascaded cavities and provides both theoretical analysis and experimental validation of its operation.

Findings

Laser operates at one or both wavelengths with simple pump adjustments

Experimental results match theoretical simulations closely

Laser achieves tunable dual-wavelength output near 1700 nm

Abstract

We present a comprehensive theoretical and experimental investigation of a dual-wavelength, bismuth-doped fiber (BDF) laser operating near 1700 nm based on cascaded cavities. The BDF provides optical gain from 1650 nm to 1800 nm when pumped at 1550 nm; the laser cavity is defined by a 90% mirror on one end and two fiber Bragg gratings (FBGs) separated by a length of BDF on the other. The laser can operate at either wavelength alone or both wavelengths simultaneously by simple adjustment of the pump power. Experimental results correlate well simulations based on a theoretical model of the laser.