Design of a Mid-IR Optical Fiber Amplifier based on a Pr3+:InF3 Glass

An optical fiber amplifier based on a fluoroindate fiber doped with praseodymium (Pr3+:InF3) has been designed. The chosen fiber has a double-cladding and a 2-D shape. The electromagnetic behavior of the fiber has been simulated via a Finite Element Method (FEM) software, and the design of the fiber amplifier has been performed via a computer code, solving the rate-equations and power propagation equations. The gain.. and the Amplified Spontaneous Emission (ASE) noise have been investigated as a function of different input parameters as the input signal power P-s0, the fiber length L-fiber,and the signal wavelength lambda(s). The simulated fiber amplifier exhibits a bandwidth B-G close to B-G = 100 nm around the central signal wavelength lambda(s) = 4 mu m, and a gain G close to G = 30.7 dB, when an input signal power P-s = 10 mu W and a pump power P-p = 75 mW are considered. This pump value seems particularly low and further investigation will be performed to better understand this unexpected promising value.