Marko Laurila scite author profile

Abstract:We demonstrate a high power fiber (85μm core) amplifier delivering up to 292Watts of average output power using a mode-locked 30ps source at 1032nm. Utilizing a single mode distributed mode filter bandgap rod fiber, we demonstrate 44% power improvement before the threshold-like onset of mode instabilities by operating the rod fiber in a leaky waveguide regime. We investigate the guiding dynamics of the rod fiber and report a distinct bandgap blue-shifting as function of increased signal power level. Furthermore, we theoretically analyze the guiding dynamics of the DMF rod fiber and explain the bandgap blue-shifting with thermally induced refractive index change of the refractive index profile.

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Single-mode ytterbium-doped large-mode-area photonic bandgap rod fiber amplifier

Alkeskjold¹,

Laurila²,

Scolari³

et al. 2011

Opt. Express

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Optimizing single mode robustness of the distributed modal filtering rod fiber amplifier

Jørgensen¹,

Petersen²,

Laurila³

et al. 2012

Opt. Express

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High-power fiber amplifiers for pulsed applications require large mode area (LMA) fibers having high pump absorption and near diffraction limited output. Photonic crystal fibers allow realization of short LMA fiber amplifiers having high pump absorption through a pump cladding that is decoupled from the outer fiber diameter. However, achieving ultra low NA for single mode (SM) guidance is challenging, thus different design strategies must be applied. The distributed modal filtering (DMF) design enables SM guidance in ultra low NA fibers with very large cores, where large preform tolerances can be compensated during the fiber draw. Design optimization of the SM bandwidth of the DMF rod fiber is presented. Analysis of band gap properties results in a fourfold increase of the SM bandwidth compared to previous results, achieved by utilizing the first band of cladding modes, which can cover a large fraction of the Yb emission band including wavelengths of 1030 nm and 1064 nm. Design parameters tolerating refractive index fabrication uncertainties of ± 10 −4 are targeted to yield stable SM bandwidths. C. Jakobsen, "Low-nonlinearity single-transverse-mode ytterbium-doped photonic crystal fiber amplifier," Opt. ©2012 Optical Society of America

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Frequency resolved transverse mode instability in rod fiber amplifiers

Johansen¹,

Laurila²,

Maack³

et al. 2013

Opt. Express

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Frequency dynamics of transverse mode instabilities (TMIs) are investigated by testing three 285/100 rod fibers in a single-pass amplifier setup reaching up to ~200W of extracted output power without beam instabilities. The pump power is increased well above the TMI threshold to uncover output dynamics, and allowing a simple method for determining TMI threshold based on standard deviation. The TMI frequency component is seen to appear on top of system noise that may trigger the onset. A decay of TMI threshold with test number is identified, but the threshold is fully recovered between testing to the level of the pristine fiber by thermal annealing the fiber output end to 300°C for 2 h.

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Estimating modal instability threshold for photonic crystal rod fiber amplifiers

Johansen¹,

Laurila²,

Alkeskjold³

et al. 2013

Opt. Express

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Abstract:We present a semi-analytic numerical model to estimate the transverse modal instability (TMI) threshold for photonic crystal rod amplifiers. The model includes thermally induced waveguide perturbations in the fiber cross section modeled with finite element simulations, and the relative intensity noise (RIN) of the seed laser, which seeds mode coupling between the fundamental and higher order mode. The TMI threshold is predicted to ~370 W -440 W depending on RIN for the distributed modal filtering rod fiber.

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Marko Laurila

Distributed mode filtering rod fiber amplifier delivering 292W with improved mode stability

Single-mode ytterbium-doped large-mode-area photonic bandgap rod fiber amplifier

Optimizing single mode robustness of the distributed modal filtering rod fiber amplifier

Frequency resolved transverse mode instability in rod fiber amplifiers

Estimating modal instability threshold for photonic crystal rod fiber amplifiers

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