Approaching TW-peak powers at >10 kHz repetition rate by multi-dimensional coherent combining of femtosecond fiber lasers

Breitkopf, Sven
Eidam, Tino
Grafenstein, Lorenz von
Klenke, Arno
Carstens, Henning
Holzberger, Simon
Pupeza, Ioachim
Fill, Ernst
Schreiber, Thomas
Limpert, Jens
Krausz, Ferenc
Tünnermann, Andreas

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Publication date

January 2014

DOI

10.1117/12.2037327

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Abstract

Novel laser applications such as laser-wake-field acceleration of particles require extreme parameters from ultra-short-pulse systems. We propose a concept capable to realize simultaneously multi-TW peak powers and multi-kW average powers by employing spatially and temporally separated amplification of chirped laser pulses delivered by fiber-amplifiers. As a combining element for the temporally 100 ns separated pulses (10 MHz repetition rate) we suggest a non-steady-state enhancement cavity using a fast switching-element to dump out the enhanced pulses at 15 kHz

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Approaching TW-peak powers at >10 kHz repetition rate by multi-dimensional coherent combining of femtosecond fiber lasers

Abstract

Extracted data

Approaching TW-peak powers at >10 kHz repetition rate by multi-dimensional coherent combining of femtosecond fiber lasers

Abstract

Extracted data

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