7x7 multicore fiber, nanosecond laser system delivering 60 mJ pulse energy

Mehran Bahri; Christopher Aleshire; Albrecht Steinkopff; Arno Klenke; Arno Klenke; Arno Klenke; Cesar Jauregui; Stefan Kuhn; Johannes Nold; Nicoletta Haarlammert; Thomas Schreiber; Andreas Tünnermann; Andreas Tünnermann; Andreas Tünnermann; Andreas Tünnermann; Jens Limpert; Jens Limpert; Jens Limpert; Jens Limpert

Conference on Lasers and Electro-Optics/Europe (CLEO/Europe 2023) and European Quantum Electronics Conference (EQEC 2023)
Technical Digest Series (Optica Publishing Group, 2023),
paper cj_8_2

7x7 multicore fiber, nanosecond laser system delivering 60 mJ pulse energy

Mehran Bahri, Christopher Aleshire, Albrecht Steinkopff, Arno Klenke, Cesar Jauregui, Stefan Kuhn, Johannes Nold, Nicoletta Haarlammert, Thomas Schreiber, Andreas Tünnermann, and Jens Limpert

The European Conference on Lasers and Electro-Optics 2023

Munich Germany
26–30 June 2023
ISBN: 979-8-3503-4599-5

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Pulsed fiber sources (cj_8)

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M. Bahri, C. Aleshire, A. Steinkopff, A. Klenke, C. Jauregui, S. Kuhn, J. Nold, N. Haarlammert, T. Schreiber, A. Tünnermann, and J. Limpert, "7x7 multicore fiber, nanosecond laser system delivering 60 mJ pulse energy," in Conference on Lasers and Electro-Optics/Europe (CLEO/Europe 2023) and European Quantum Electronics Conference (EQEC 2023), Technical Digest Series (Optica Publishing Group, 2023), paper cj_8_2.

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Abstract

Multicore fibers (MCF) offer a groundbreaking method that allows compact setups with an unprecedented number of channels [1]. In fact, MCFs offer an opportunity to integrate the parallel amplifiers in one fiber with a shared pump cladding and sharing amplification load across multiple cores. Therefore, MCFs are potential option in many applications, such as generation of extreme UV, incoherent beam combination, and pump source for other lasers. MCFs have scalable performance by the number of amplifying cores. While 4x4 MCFs already provided high pulse energy [2] and high average power [3] with a diffraction limit beam quality, 7x7 MCFs are the new generation of these systems and have the potential for J-class fiber laser amplifiers. In this work, a rod-type Ytterbium doped 7x7 MCF is used both as an oscillator and amplifier in a Master Oscillator Power Amplifier (MOPA) system. The employed fibers are based on a step-index design with shared pump cladding and a rectangular core arrangement. This optical system containing 49 cores generates up to 10-mJ pulse energy as a seed for the amplifier (see Fig. 1).

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