High-power amplification of a femtosecond vertical external-cavity surface-emitting laser in an Yb: YAG waveguide

Jornod, Nayara; Wittwer, Valentin; Kränkel, Christian; Waldburger, Dominik; Keller, Ursula; Südmeyer, Thomas; Calmano, Thomas

doi:10.1364/OE.25.016527

High-power amplification of a femtosecond vertical external-cavity surface-emitting laser in an Yb: YAG waveguide

Author(s)

Jornod, Nayara

Laboratoire temps-fréquence

Wittwer, Valentin

Laboratoire temps-fréquence

Kränkel, Christian

Waldburger, Dominik

Keller, Ursula

Südmeyer, Thomas

Laboratoire temps-fréquence

Calmano, Thomas

Date issued

2017

In

Optics Express, Optical Society of America

Vol

25

No

14

From page

16527

To page

16533

Abstract

We present the amplification of a mode-locked vertical external-cavity surfaceemitting laser (VECSEL) using an Yb:YAG crystalline waveguide as gain medium. The VECSEL seed laser operates at a center wavelength of 1030 nm and generates 300-fs pulses at a repetition rate of 1.77 GHz. An average seed power of 60 mW was launched onto a 8.3 mm long fs-laser written Yb:YAG waveguide pumped by 7.7 W from a 969-nm continuous-wave VECSEL. The amplifier achieves an average output power of up to 2.9 W, corresponding to an amplification factor of 17 dB. Due to gain narrowing, the pulse duration increases to 629 fs. Our results show that crystalline waveguides are a promising technique for the realization of compact multi-watt ultrafast amplifier systems.