A concept for multiterawatt fibre lasers based on coherent pulse stacking in passive cavities View Full Text


Ontology type: schema:ScholarlyArticle      Open Access: True


Article Info

DATE

2014-10

AUTHORS

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

ABSTRACT

Since the advent of femtosecond lasers, performance improvements have constantly impacted on existing applications and enabled novel applications. However, one performance feature bearing the potential of a quantum leap for high-field applications is still not available: the simultaneous emission of extremely high peak and average powers. Emerging applications such as laser particle acceleration require exactly this performance regime and, therefore, challenge laser technology at large. On the one hand, canonical bulk systems can provide pulse peak powers in the multi-terawatt to petawatt range, while on the other hand, advanced solid-state-laser concepts such as the thin disk, slab or fibre are well known for their high efficiency and their ability to emit high average powers in the kilowatt range with excellent beam quality. In this contribution, a compact laser system capable of simultaneously providing high peak and average powers with high wall-plug efficiency is proposed and analysed. The concept is based on the temporal coherent combination (pulse stacking) of a pulse train emitted from a high-repetition-rate femtosecond laser system in a passive enhancement cavity. Thus, the pulse energy is increased at the cost of the repetition rate while almost preserving the average power. The concept relies on a fast switching element for dumping the enhanced pulse out of the cavity. The switch constitutes the key challenge of our proposal. Addressing this challenge could, for the first time, allow the highly efficient dumping of joule-class pulses at megawatt average power levels and lead to unprecedented laser parameters. More... »

PAGES

e211

References to SciGraph publications

Identifiers

URI

http://scigraph.springernature.com/pub.10.1038/lsa.2014.92

DOI

http://dx.doi.org/10.1038/lsa.2014.92

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1003659751


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