Your search keyword '"Aleshire Christopher"' showing total 4 results

1. The scaling potential of beam-splitter-based coherent beam combination

Author

Mueller, Michael, Aleshire, Christopher, Buldt, Joachim, Stark, Henning, Grebing, Christian, Klenke, Arno, and Limpert, Jens

Subjects

Physics - Optics

Abstract

The impact of nonlinear refraction and residual absorption on the achievable peak and average power in beam-splitter-based coherent beam combination is analyzed theoretically. While the peak power remains limited only by the aperture size, a fundamental average power limit is given by the thermo-optical and thermo-mechanical properties of the beam splitter material and its coatings. Based on our analysis, 100 kW average power can be obtained with state-of-the-art optics at maintained high beam quality (M2 {\leq} 1.1) and at only 2% loss of combining efficiency. This result indicates that the power-scaling potential of today's beam-splitter-based coherent beam combination is far from being depleted. A potential scaling route to megawatt-level average power is discussed for optimized beam splitter geometry.

Published

2022

2. Impact of thermo-optical effects in coherently-combined multicore fiber amplifiers

Author

Steinkopff, Albrecht, Jauregui, Cesar, Aleshire, Christopher, Klenke, Arno, and Limpert, Jens

Subjects

Physics - Optics, Physics - Applied Physics

Abstract

In this work we analyze the power scaling potential of amplifying multicore fibers (MCFs) used in coherently-combined systems. In particular, in this study we exemplarily consider rod-type MCFs with 2x2 up to 10x10 Ytterbium doped cores arranged in a squared pattern. We will show that, even though increasing the number of active cores will lead to higher output powers, particular attention has to be paid to arising thermal effects, which potentially degrade the performance of these systems. Additionally, we analyze the influence of the core dimensions on the extractable and combinable output power and pulse energy. This includes a detailed study on the thermal effects that influence the propagating transverse modes and, in turn, the amplification efficiency, the combining efficiency, the onset of nonlinear effect, as well as differences in the optical path lengths between the cores. Considering all these effects under rather extreme conditions, the study predicts that average output powers higher than 10 kW from a single 1 m long Ytterbium-doped MCF are feasible and femtosecond pulses with energies higher than 400 mJ can be extracted and efficiently recombined in a filled-aperture scheme., Comment: This is a post-peer-review, pre-copyedit version of an article published in Optics Express. The final authenticated version is available online at: https://doi.org/10.1364/OE.410614

Published

2021

3. Simplified Design of Optical Elements for Filled-Aperture Coherent Beam Combination

Author

Aleshire, Christopher, Steinkopff, Albrecht, Jauregui, Cesar, Klenke, Arno, Tünnermann, Andreas, and Limpert, Jens

Subjects

Physics - Optics

Abstract

A simplification strategy for Segmented Mirror Splitters (SMS) used as beam combiners is presented. These devices are useful for compact beam division and combination of linear and 2-D arrays. However, the standard design requires unique thin-film coating sections for each input beam and thus potential for scaling to high beam-counts is limited due to manufacturing complexity. Taking advantage of the relative insensitivity of the beam combination process to amplitude variations, numerical techniques are used to optimize highly-simplified designs with only one, two or three unique coatings. It is demonstrated that with correctly chosen coating reflectivities, the simplified optics are capable of high combination efficiency for several tens of beams. The performance of these optics as beamsplitters in multicore fiber amplifier systems is analyzed, and inhomogeneous power distribution of the simplified designs is noted as a potential source of combining loss in such systems. These simplified designs may facilitate further scaling of filled-aperture coherently combined systems., Comment: 11 pages, 7 figures

Published

2021

4. 10.4 kW coherently combined ultrafast fiber laser

Author

Müller, Michael, Aleshire, Christopher, Klenke, Arno, Haddad, Elissa, Légaré, François, Tünnermann, Andreas, and Limpert, Jens

Subjects

Physics - Optics

Abstract

An ultrafast laser delivering 10.4 kW average output power based on coherent combination of twelve stepindex fiber amplifiers is presented. The system emits close-to-transform-limited 254 fs pulses at 80 MHz repetition rate, has a high beam quality (M2<=1.2), and a low relative intensity noise of 0.56% in the frequency range of from 1 Hz to 1 MHz. Automated spatiotemporal alignment allows for hands-off operation.

Published

2021