K. Ludewigt scite author profile

We report on the incoherent beam combination of the four narrow-linewidth fiber amplifier chains running at different wavelengths. Each main amplifier stage consists of a large-mode-area photonic crystal fiber delivering more than 2 kW of optical power. The four output beams are spectrally combined to a single beam with an output power of 8.2 kW using a polarization-independent dielectric reflective diffraction grating mainly preserving the beam quality of the individual fiber amplifiers.

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2 kW incoherent beam combining of four narrow-linewidth photonic crystal fiber amplifiers

Wirth¹,

Schmidt²,

Tsybin³

et al. 2009

Opt. Express

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We report on beam combining of four narrow-linewidth fiber amplifier chains, running at different wavelengths and each delivering 500 W optical output power. The main amplifier stage consists of a large mode area photonic crystal fiber. The four output beams of the amplifier chains are spectrally (incoherent) combined using a polarization-independent dielectric reflective diffraction grating to form an output beam of 2 kW continuous-wave optical power with good beam quality (M(2)x = 2.0, M(2)y = 1.8).

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Optimizing mode instability in low-NA fibers by passive strategies

et al. 2015

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Systematic experimental investigations toward the mode instability (MI) threshold in low-NA fibers are performed. By testing several fibers with varying V-parameters drawn from the same preform, a high degree of reproducibility of the experimental conditions could be achieved. This allows for systematic investigations on isolated parameters influencing the complex behavior of MI. A maximum MI threshold of 2 kW could be demonstrated for the tested fibers, which represents a new record output power for narrow linewidth fiber amplifiers. The MI threshold was found to sensitively depend on the V-parameter for large V-parameters (>2), but to be robust for smaller V-parameters. Furthermore, the fiber bending diameter and the seed excitation conditions were identified to sensitively influence the MI threshold.

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High-power laser development for laser weapons

Ludewigt

Liem

Stuhr

et al. 2019

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Performance of a thermal-piezoelectric deformable mirror under 62 kW continuous-wave operation

et al. 2013

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The thermal-piezoelectric deformable mirror (TPDM) is a device employed to compensate for laser-induced mirror deformation and thermal lensing in high-power optical systems. The TPDM setup is a unimorph deformable mirror with thermal and piezoelectric actuation properties. Laser-induced thermal lensing is compensated for by heating of the TPDM. We show that this mirror can be applied to high-power laser systems of up to 6.2 kW laser power and high power densities of up to 2 kW/cm2. The piezoelectric stroke of the single actuators is between 1.5 and 4 μm and is not reduced by either the absorbed laser power or mirror heating.

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K. Ludewigt

High average power spectral beam combining of four fiber amplifiers to 82 kW

2 kW incoherent beam combining of four narrow-linewidth photonic crystal fiber amplifiers

Optimizing mode instability in low-NA fibers by passive strategies

High-power laser development for laser weapons

Performance of a thermal-piezoelectric deformable mirror under 62 kW continuous-wave operation

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