Spectral broadening in convex-concave multipass cells
Abstract
Since its first demonstration in 2016, the multi-pass spectral broadening technique has covered impressive ranges of pulse energy (3 µJ – 100 mJ) and peak power (4 MW – 100 GW). Energy scaling of this technique into the joule-level is currently limited by phenomena such as optical damage, gas ionization and spatio-spectral beam inhomogeneity. These limitations can be overcome by the novel multi-pass convex-concave arrangement, which exhibits crucial properties such as large mode size and compactness. In a proof-of-principle experiment, 260 fs, 15 µJ and 200 µJ pulses are broadened and subsequently compressed to approximately 50 fs with 90% efficiency and excellent spatio-spectral homogeneity across the beam profile. We simulate the proposed concept for spectral broadening of 40 mJ and 1.3 ps input pulses and discuss the possibility of further scaling.
Description
Hariton, Victor; Fritsch, Kilian; Schwarz, Kevin; Kovalenko, Nazar; Figueira, Goncalo; Arisholm, Gunnar; Pronin, Oleg.
Spectral broadening in convex-concave multipass cells. Optics Express 2023 ;Volum 31.(15) s. 19554-19568