Numerical investigation on high power midinfrared supercontinuum fiber lasers pumped at 3 μm

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Abstract

High power mid-infrared (mid-IR) supercontinuum (SC) laser sources in the 3-12 μm region are of great interest for a variety of applications in many fields. Although various mid-IR SC laser sources have been proposed and investigated experimentally and theoretically in the past several years, power scaling of mid-IR SC lasers beyond 3 μm with infrared edges extending beyond 7 μm are still challenges because the wavelengths of most previously used pump sources are below 2 μm. These problems can be solved with the recent development of mode-locked fiber lasers at 3 μm. In this paper, high power mid-IR SC laser sources based on dispersion engineered tellurite and chalcogenide fibers and pumped by ultrafast lasers at 3 μm are proposed and investigated. Our simulation results show that, when a W-type tellurite fiber with a zero dispersion wavelength (ZDW) of 2.7 μm is pumped at 2.78 μm, the power proportion of the SC laser beyond 3 μm can exceed 40% and the attainable SC output power of the proposed solid-cladding tellurite fiber is one order of magnitude higher than that of existing microstructured tellurite fibers. Our calculation also predicts that a very promising super-broadband mid-IR SC fiber laser source covering two atmospheric windows and molecules' "fingerprint" region can be obtained with a microstructured As 2Se3 chalcogenide fiber pumped at 2.78 μm.

Original languageEnglish (US)
Pages (from-to)29488-29504
Number of pages17
JournalOptics Express
Volume21
Issue number24
DOIs
StatePublished - Dec 2 2013

ASJC Scopus subject areas

  • Atomic and Molecular Physics, and Optics

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