Hollow-fiber compression of 6 mJ pulses from a continuous-wave diode-pumped single-stage Yb,Na:CaF2 chirped pulse amplifier

G Andriukaitis; D Kartashov; D Lorenc; A Pugžlys; A Baltuška; L Giniūnas; R Danielius; J Limpert; T Clausnitzer; E-B Kley; A Voronin; A Zheltikov

doi:10.1364/OL.36.001914

Hollow-fiber compression of 6 mJ pulses from a continuous-wave diode-pumped single-stage Yb,Na:CaF2 chirped pulse amplifier

Opt Lett. 2011 May 15;36(10):1914-6. doi: 10.1364/OL.36.001914.

Authors

G Andriukaitis¹, D Kartashov, D Lorenc, A Pugžlys, A Baltuška, L Giniūnas, R Danielius, J Limpert, T Clausnitzer, E-B Kley, A Voronin, A Zheltikov

Affiliation

¹ Photonics Institute, Vienna University of Technology, Gusshausstrasse 27-387, A 1040, Vienna, Austria.

PMID: 21593933
DOI: 10.1364/OL.36.001914

Abstract

Here, 200 fs 6 mJ pulses from a cw diode-pumped Yb,Na:CaF(2) amplifier are spectrally broadened in an Ar- or Ne-filled hollow-core fiber and recompressed to 20 fs (Ar) and 35 fs (Ne) using a prism pair. The results of spectral broadening and phase measurement are in excellent agreement with numerical modeling based on the generalized nonlinear Schrödinger equation. The longer laser wavelength of 1030 nm permits favorable energy scaling for the hollow-fiber technique compared to ultrafast amplifiers operating at 800 nm.