275 W average output power from a femtosecond thin disk oscillator operated in a vacuum environment

Saraceno, Clara J.; Emaury, Florian; Heckl, Oliver H.; Baer, C. R. E.; Hoffmann, Martin; Schriber, Cinia; Golling, Matthias; Südmeyer, Thomas; Keller, U.

doi:10.1364/oe.20.023535

Cited by 194 publications

(151 citation statements)

References 30 publications

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“…However, novel laser concepts, such as thin-disk 12,13 , innoslab 14 , and fiber lasers 15 , have shown impressive advances in their performance and reached the kilowatt level of average power during pulsed operation. All of these architectures are based on ytterbium-doped laser materials that limit the attainable pulse duration to a few hundred femtoseconds.…”

Section: Introductionmentioning

confidence: 99%

Exploring new avenues in high repetition rate table-top coherent extreme ultraviolet sources

et al. 2015

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The process of high harmonic generation (HHG) enables the development of table-top sources of coherent extreme ultraviolet (XUV) light. Although these are now matured sources, they still mostly rely on bulk laser technology that limits the attainable repetition rate to the low kilohertz regime. Moreover, many of the emerging applications of such light sources (e.g., photoelectron spectroscopy and microscopy, coherent diffractive imaging, or frequency metrology in the XUV spectral region) require an increase in the repetition rate. Ideally, these sources are operated with a multi-MHz repetition rate and deliver a high photon flux simultaneously. So far, this regime has been solely addressed using passive enhancement cavities together with low energy and high repetition rate lasers. Here, a novel route with significantly reduced complexity (omitting the requirement of an external actively stabilized resonator) is demonstrated that achieves the previously mentioned demanding parameters. A krypton-filled Kagome photonic crystal fiber is used for efficient nonlinear compression of 9 mJ, 250 fs pulses leading to ,7 mJ, 31 fs pulses at 10.7 MHz repetition rate. The compressed pulses are used for HHG in a gas jet. Particular attention is devoted to achieving phase-matched (transiently) generation yielding .10 13 photons s -1 (.50 mW) at 27.7 eV. This new spatially coherent XUV source improved the photon flux by four orders of magnitude for direct multi-MHZ experiments, thus demonstrating the considerable potential of this source.

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Section: Introductionmentioning

confidence: 99%

Exploring new avenues in high repetition rate table-top coherent extreme ultraviolet sources

et al. 2015

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“…Over the past decades, solid-state-laser concepts with advanced active medium geometries have been developed, including the thin disk, 8 the slab 9 or the fibre. 10 All of them feature an improved thermal management, which has enabled scaling the average power while preserving an excellent spatial beam quality.…”

Section: Introductionmentioning

confidence: 99%

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

et al. 2014

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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.

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“…In addition, the broad emission bandwidth of Yb:Lu 2 O 3 allows for the generation of ultrashort pulse [7] which resulted in pulse durations as short as 738 fs at an average output power as high as 141 W demonstrated in a mode-locked thin disk laser [8]. Quite recently this result was surpassed by Yb:YAG with 583 fs at 275 W using a vacuum environment [9]. In terms of pulse energy 41 lJ was achieved from a mode-locked Yb:YAG thin disk laser with 1.1 ps pulse duration obtained in an active multipass cell [10].…”

Section: Introductionmentioning

confidence: 99%

Yb-doped mixed sesquioxides for ultrashort pulse generation in the thin disk laser setup

Beil¹,

Saraceno

Schriber

et al. 2013

Appl. Phys. B

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275 W average output power from a femtosecond thin disk oscillator operated in a vacuum environment

Cited by 194 publications

References 30 publications

Exploring new avenues in high repetition rate table-top coherent extreme ultraviolet sources

Exploring new avenues in high repetition rate table-top coherent extreme ultraviolet sources

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

Yb-doped mixed sesquioxides for ultrashort pulse generation in the thin disk laser setup

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