Guiding of Laser Pulses at the Theoretical Limit – 97% Throughput Hollow-Core Fibers

Young-Gyun Jeong; Riccardo Piccoli; Andrea Rovere; Luca Zanotto; Gabriel Tempea; Derrek Wilson; Derrek Wilson; Maksym Ivanov; Maksym Ivanov; Alicia Ramirez; Roberto Morandotti; Roberto Morandotti; François Légaré; Luca Razzari; Bruno E. Schmidt

doi:10.1364/UP.2020.Th4A.6

The 22nd International Conference on Ultrafast Phenomena 2020
OSA Technical Digest (Optica Publishing Group, 2020),
paper Th4A.6
•https://doi.org/10.1364/UP.2020.Th4A.6

Guiding of Laser Pulses at the Theoretical Limit – 97% Throughput Hollow-Core Fibers

Young-Gyun Jeong, Riccardo Piccoli, Andrea Rovere, Luca Zanotto, Gabriel Tempea, Derrek Wilson, Maksym Ivanov, Alicia Ramirez, Roberto Morandotti, François Légaré, Luca Razzari, and Bruno E. Schmidt

International Conference on Ultrafast Phenomena 2020

Washington, D.C. United States
16–19 November 2020
ISBN: 978-1-943580-83-5

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Y. Jeong, R. Piccoli, A. Rovere, L. Zanotto, G. Tempea, D. Wilson, M. Ivanov, A. Ramirez, R. Morandotti, F. Légaré, L. Razzari, and B. E. Schmidt, "Guiding of Laser Pulses at the Theoretical Limit – 97% Throughput Hollow-Core Fibers," in The 22nd International Conference on Ultrafast Phenomena 2020, F. Kärtner, M. Khalil, R. Li, F. Légaré, and T. Tahara, eds., OSA Technical Digest (Optica Publishing Group, 2020), paper Th4A.6.

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Abstract

We describe a compact, 1-m-long, hollow-core fiber (HCF) with 97.4% transmission. 1mJ, 170fs pulses are compressed to 25fs with 92% total efficiency, energy stability of 0.6% RMS and an M² parameter of about 1.05.

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