Comb-driven cavity solitons – a multidimensional study in free-space enhancement cavities

Maximilian Högner; Maximilian Högner; Alexander Hertlein; Alexander Hertlein; Philipp Sulzer; Philipp Sulzer; Johannes Schmuck; Johannes Schmuck; Christina Hofer; Christina Hofer; Arthur K. Mills; Arthur K. Mills; David J. Jones; David J. Jones; Ioachim Pupeza; Ioachim Pupeza; Ioachim Pupeza

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 ef_6_1

Comb-driven cavity solitons – a multidimensional study in free-space enhancement cavities

Maximilian Högner, Alexander Hertlein, Philipp Sulzer, Johannes Schmuck, Christina Hofer, Arthur K. Mills, David J. Jones, and Ioachim Pupeza

European Quantum Electronics Conference 2023

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

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Dissipative solitons and mode-locking II (ef_6)

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M. Högner, A. Hertlein, P. Sulzer, J. Schmuck, C. Hofer, A. K. Mills, D. J. Jones, and I. Pupeza, "Comb-driven cavity solitons – a multidimensional study in free-space enhancement cavities," 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 ef_6_1.

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Abstract

Nonlinear free-space passive resonators, driven by pulse trains from a mode-locked laser, provide a power-scalable, broadband, and flexible platform for the investigation of temporal cavity solitons [1], relevant to the development of novel ultrashort laser frontends. To this end, the comb lines of the mode-locked laser are stabilized to a fixed frequency offset relative to the resonances of a free-space enhancement cavity consisting of a thin nonlinear medium (sapphire) and tailored multilayer mirrors (Fig. 1a).

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