Nonlinear ultrafast fiber amplifiers beyond the gain-narrowing limit
Pavel Sidorenko, Walter Fu, Frank Wise

TL;DR
This paper introduces a novel fiber amplification regime that leverages a dynamically evolving gain spectrum to achieve ultrashort pulses with spectral broadening beyond the gain bandwidth, enabling high-energy, sub-50-fs pulses.
Contribution
It demonstrates a new nonlinear amplification regime using a dynamic gain spectrum, supported by theory and experiments, to produce ultrashort, broad-spectrum pulses beyond traditional limits.
Findings
Spectral broadening by nearly two orders of magnitude
Pulses remain compressible to sub-50-fs durations
Evidence of a nonlinear attractor governing pulse dynamics
Abstract
Ultrafast lasers are becoming increasingly widespread in science and industry alike. Fiber-based ultrafast laser sources are especially attractive because of their compactness, alignment-free setups, and potentially low costs. However, confining short pulses within a fiber core leads to high intensities, which drive a host of nonlinear effects. While these phenomena and their interactions greatly complicate the design of such systems, they can also provide opportunities for engineering new capabilities. Here, we report a new fiber amplification regime distinguished by the use of a dynamically-evolving gain spectrum as a degree of freedom: as a pulse experiences nonlinear spectral broadening, absorption and amplification actively reshape both the pulse and the gain spectrum itself. The dynamic co-evolution of the field and excited-state populations supports pulses that can broaden…
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