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Publications

Here you can find all of our previous publications

 
Nonlinear pulse compression of a thin-disk amplifier and contrast enhancement vianonlinear ellipse rotation

Year: 2022

Related Product: Herz 10

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Thin-disk Multipass Amplifier for 100 mJ Class, Multi-kW High Intensity Lasers

Year: 2022

Related Product: Multipass amplifier

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Thin-Disk based Regenerative Chirped Pulse Amplifier with 550 mJ Pulse Energy at 1 kHz Repetition Rate

Year: 2021

Related Product: Dira 1000-5

 

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Umgeleiteter Blitz durch grünen Laser
The laser lightning rod project

Year: 2021

Related Product: Dira 1000-1

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Ultrafast Thin-Disk based CPA System with > 1 kW Output Power and < 500 fs Pulse Duration.

Year: 2020

Related Product: Dira 1000-5

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Ultrafast thin-disk multi-pass amplifier system providing 1.9 kW of average output power and pulse energies in the 10 mJ range at 1 ps of pulse duration for glass-cleaving applications

Year: 2020

Related Product: Multipass amplifier

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Toward Kilowatt-Level Ultrafast Regenerative Thin-Disk Amplifiers

Year: 2016

Related Product: Dira 500-10

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CEP-stable, sub-6 fs, 300-kHz OPCPA system with more than 15 W of average power (optica.org)

Year: 2015

Related Product: Dira 200-100

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Active pump-seed-pulse synchronization for OPCPA with sub-2-fs residual timing jitter

Year: 2014

Related Product: Ultrashort Pulse synchro

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Selected publications from our customers using products from TRUMPF Scientific Lasers

Generation and characterization of isolated attosecond pulses at 100 kHz repetition rate (2022)

Max-Born-Institut, Germany
Colorado State University, USA

 
Implemented laser. Dira 200-100

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Moving towards high-power thin-disk lasers in the 2 µm wavelength range (2021)

Ruhr-Universität Bochum, Germany
 

Implemented components: Thin-disk components

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Tunable femtosecond optical parametric amplifier pumped by 1 kHz ultrafast thin-disk laser pulses for coherent anti-Stokes Raman scattering (2021)

Friedrich Schiller Universität Jena, Germany
APE, Germany
Fraunhofer Institute for Applied Optics and Precision Engineering Germany

Implemented laser: Dira 500-10

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Sub-30-fs Yb:YAG thin-disk laser oscillator operating in the strongly self-phase modulation broadened regime (2021)

Université de Neuchâtel, Switzerland

 
Implemented component: Thin-disk components

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120 mJ, 1 kHz, picosecond laser at 515 nm (2021)

ELI Beamlines, Czech Republic
Czech Technical University in Prague, Czech Republic
Charles University, Czech Republic

 
Implemented laser: Dira 200-1

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High average power OPCPA MIR-systems for coherent soft x-ray generation accessing absorption edges of metals (2021)

Max-Born-Institut, Germany

 
Implemented laser: Dira 500-10

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High-power dual-comb thin-disk laser oscillator for fast high-resolution spectroscopy (2021)

Université de Neuchâtel, Switzerland

 
Implenetd component: Thin-disk components

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Ultrafast NEXAFS spectroscopy in the lab using laser-based sources and advanced X-ray optics (2021)

Max-Born-Institut, Germany

 
Implemented laser: Dira 500-1

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Single-cycle, MHz repetition rate THz source with 66 mW of average power (2020)

Ruhr-Universität Bochum, Germany

 
Implemented component: Thin-disk components

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27 W 2.1 µm OPCPA system for coherent soft X-ray generation operating at 10 kHz.

Max-Born-Institut, Germany
Shandong University, China

 
Implemented laser: Dira 500-10

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Sub-100-fs Kerr lens mode-locked Yb:Lu2O3 thin-disk laser oscillator operating at 21 W average power (2019)

Université de Neuchâtel, Switzerland
Leibniz-Institut für Kristallzüchtung, Germany

 
Implemented component: Thin-disk components

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Supercontinuum-seeded, carrier-envelope phase-stable, 4.5-W, 3.8-μm, 6-cycle, KTA optical parametric amplifier driven by a 1.4-ps Yb:YAG thin-disk amplifier for nonperturbative spectroscopy in solids (2019)

Pohang University of Science and Technology, South Korea
Max Planck Center for Attosecond Science, South Korea

 
Implemented laser: Dira 200-100 + OPCPA

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Highly-stable, high-power picosecond laser optically synchronized to a UV photocathode laser for an ICS hard x-ray generation (2018)

MIT, USA
Light Conversion, Lithuania
Arizona State University, USA
TRUMPF Scientific Lasers GmbH + Co. KG, Germany

 
Implemented laser: Dira 200-1

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Spatio-temporal characterisation of a 100 kHz 24 W sub-3-cycle NOPCPA laser system (2018)

Max-Born-Institut, Germany

 
Implemented laser: Dira 200-100

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Highly stable, 15 W, few-cycle, 65 mrad CEP-noise mid-IR OPCPA for statistical physics (2018)

Fastlite, France
ELI-HU Non-Profit Ltd, Hungary
Imperial College London, UK

 
Implemented laser. Dira 200-100

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