Louis Desbiens scite author profile

Increasing the ablation efficiency of picosecond laser sources can be performed by bunching pulses in bursts 1 and benefit from heat accumulation effects 2-5 in the target. Pulsed fiber lasers are well suited for such a regime of operation, as the single pulse energy in a fiber is limited by the onset of nonlinear effects (SPM, SRS). Increasing the number of pulses to form a burst of pulses allows for average power scaling of picosecond fiber lasers. We are presenting in this paper a high-power fiber laser emitting arbitrarily-shaped bursts of picosecond pulses at 20 W of average output power. Burst duration can be varied from 2.5 ns to 80 ns. The burst repetition rate is externally triggered and can be varied from 100 kHz to 1 MHz. The single pulse duration is 60 ps and the repetition rate within a burst is 1.8 GHz. The output beam is linearly polarized (PER > 20 dB) and its M 2 value is smaller than 1.15. The laser source has a tunable central wavelength around 1064 nm and a spectral linewidth compatible with frequency conversion. Conversion efficiency higher than 60% has been obtained at 10 W of 1064-nm output power.

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Yb-doped large mode area fibers with depressed clad and dopant confinement

Roy

Paré

Laperle

et al. 2016

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Large mode area fibers with depressed-index cladding layer and confinement of rare-earth dopants can provide effective suppression of high-order modes. A polarization-maintaining Yb-doped double-clad fiber with 35/250 µm core/clad diameter has been fabricated from conventional methods according to this design. The fiber which has an effective mode area close to 500 µm 2 yields near diffraction-limited output with beam quality factor M 2 close to 1.1 when tested as a power amplifier with a coherent seed light source. Beam pointing measurements provide further evidence for near single-mode behavior as the pointing fluctuations are shown to be negligible once the fiber is coiled to a given diameter.

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Louis Desbiens

Yb-doped large mode area tapered fiber with depressed cladding and dopant confinement

Material micromachining using bursts of high repetition rate picosecond pulses from a fiber laser source

High-power/energy large mode area tapered fiber amplifiers

Arbitrarily-shaped bursts of picosecond pulses from a fiber laser source for high-throughput applications

Yb-doped large mode area fibers with depressed clad and dopant confinement

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