Compact nanosecond laser system for the ignition of aeronautic combustion engines
Language
en
Article de revue
This item was published in
Journal of Applied Physics. 2016, vol. 120, n° 23, p. 233102
American Institute of Physics
English Abstract
We have studied and developed a compact nanosecond laser system dedicated to the ignition of aeronautic combustion engines. This system is based on a nanosecond microchip laser delivering 6 µJ nanosecond pulses, which are ...Read more >
We have studied and developed a compact nanosecond laser system dedicated to the ignition of aeronautic combustion engines. This system is based on a nanosecond microchip laser delivering 6 µJ nanosecond pulses, which are amplified in two successive stages. The first stage is based on an Ytterbium doped fiber amplifier (YDFA) working in a quasi-continuous-wave (QCW) regime. Pumped at a 1 kHz repetition rate, it delivers TEM 00 and linearly polarized nanosecond pulses centered at 1064 nm with energies up to 350 µJ. These results are in very good agreement with the model we specially designed for a pulsed QCW pump regime. The second amplification stage is based on a compact Nd:YAG double-pass amplifier pumped by a 400 W peak power QCW diode centered at λ=808 nm and coupled to a 800 µm core multimode fiber. At a 10 Hz repetition rate, this system amplifies the pulse delivered by the YDFA up to 11 mJ while preserving its beam profile, polarization ratio, and pulse duration. Finally, we demonstrate that this compact nanosecond system can ignite an experimental combustion chamber.Read less <
ANR Project
Etude d'une Cellule Laser d'Allumage Infra-Rouge - ANR-14-ASTR-0002
Origin
Hal imported