Amplification of Supercontinuum Seed Pulses at 1.1–1.4 m by Cascade Rotational SRS in Compressed Hydrogen

Paulius Mackonis; Augustinas Petrulėnas; Augustė Černeckytė; Aleksej M. Rodin

doi:10.1364/EUVXRAY.2024.JTu4A.20

High-Brightness Sources and Light-Driven Interactions Congress
Technical Digest Series (Optica Publishing Group, 2024),
paper JTu4A.20
•https://doi.org/10.1364/EUVXRAY.2024.JTu4A.20

Amplification of Supercontinuum Seed Pulses at 1.1–1.4 m by Cascade Rotational SRS in Compressed Hydrogen

Paulius Mackonis, Augustinas Petrulėnas, Augustė Černeckytė, and Aleksej M. Rodin

Mid-Infrared Coherent Sources 2024

Vienna Austria
12–14 March 2024
ISBN: 978-1-957171-35-7

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Joint Poster Session I (JTu4A)

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P. Mackonis, A. Petrulėnas, A. Černeckytė, and A. M. Rodin, "Amplification of Supercontinuum Seed Pulses at 1.1–1.4 m by Cascade Rotational SRS in Compressed Hydrogen," in High-Brightness Sources and Light-Driven Interactions Congress, Technical Digest Series (Optica Publishing Group, 2024), paper JTu4A.20.

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Abstract

Multiple higher-order Stokes of stimulated rotational Raman scattering (SRRS) in compressed hydrogen covered the wavelength range from ~1078 nm to ~1355 nm using ~1.2 ps pump pulses from a Yb:YAG laser. The use of a supercontinuum seed, as well as circular polarization of pump pulses at high hydrogen pressure, made it possible to significantly reduce the threshold for SRRS and suppress vibrational Stokes modes. Cascade excitation of SRRS, corresponding to a shift of 587 cm^-1, ensured a spectrum spanning four Stokes orders and a conversion efficiency of 52% with an output energy exceeding 3 mJ. The synthesized spectrum corresponded to ~14 fs transform-limited pulses.

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