In this paper it is shown that, once a particular erbium-doped-silica photonic crystal fiber has been fabricated, the characteristic parameters obtained by means of the technique developed by the authors can be used to properly simulate the main features of optical amplifiers and lasers made of this fiber. This requires assuming that the finite size of the air-holes microstructure makes the overall passive losses per unit length to exhibit an effective dependence on the fiber length. Measurements are performed on a variety of amplifiers and lasers built with pieces of different lengths of two home-made fibers to check the simulation method. A good agreement is found between experimental and simulated results. This means that the proposed method is useful to design optimized erbium-doped photonic crystal fiber amplifiers and lasers for particular applications.

Did you like this research project?

To get this research project Guidelines, Training and Code... Click Here

PROJECT TITLE :Energy-Efficient Transmission of Hybrid Array With Non-Ideal Power Amplifiers and Circuitry - 2018ABSTRACT:This Project presents a brand new approach to efficiently maximizing the energy potency (EE) of hybrid arrays
PROJECT TITLE :Quantum Transmission Line Modeling Method and Its Application to Quantum Dot AmplifiersABSTRACT:During this paper, a replacement transmission line modeling technique is introduced to determine a photon emission
PROJECT TITLE :High-Energy Nanosecond Optical Vortex Output From Nd:YAG AmplifiersABSTRACT:Optical vortex amplification up to the joule level using flash-lamp-pumped Nd:YAG amplifiers has been demonstrated for the first time.
PROJECT TITLE :Modelling, simulation, and verification for detailed short-circuit analysis of a 1 × 25 kV railway traction systemABSTRACT:This study presents a modelling and simulation method for the analysis of short-circuits
PROJECT TITLE :Sub-Microsecond Pulsed Pumping as a Means of Suppressing Amplified Spontaneous Emission in Tandem Pumped Fiber AmplifiersABSTRACT:We tend to propose a new tandem pumping theme in 3-level rare-earth-doped optical

Ready to Complete Your Academic MTech Project Work In Affordable Price ?

Project Enquiry