Nonlinear pulse compression of a thin-disk amplifier and contrast enhancement via nonlinear ellipse rotation

Yanik Pfaff; Carola Forster; Gaia Barbiero; Michael Rampp; Sandro Klingebiel; Jonathan Brons; Catherine Y Teisset; Haochuan Wang; Robert Jung; Jasna Jaksic; Abel H Woldegeorgis; Clara J Saraceno; Thomas Metzger

doi:10.1364/OE.455393

Nonlinear pulse compression of a thin-disk amplifier and contrast enhancement via nonlinear ellipse rotation

Opt Express. 2022 Mar 28;30(7):10981-10990. doi: 10.1364/OE.455393.

Authors

Yanik Pfaff, Carola Forster, Gaia Barbiero, Michael Rampp, Sandro Klingebiel, Jonathan Brons, Catherine Y Teisset, Haochuan Wang, Robert Jung, Jasna Jaksic, Abel H Woldegeorgis, Clara J Saraceno, Thomas Metzger

PMID: 35473051
DOI: 10.1364/OE.455393

Abstract

We demonstrate pulse compressibility from 840 fs to 38 fs of 10 mJ pulses from a thin-disk amplifier at a repetition rate of 3 kHz after nonlinear broadening in a multipass cell. In addition, the temporal-intensity contrast is enhanced via nonlinear ellipse rotation of more than a factor 50 with an optical efficiency of 56%. We believe this is the first published experimental combination of multipass cell-based nonlinear compression and nonlinear ellipse rotation-based contrast enhancement preserving both pulse compressibility and beam quality.