Picosecond pulse amplification up to a peak power of 42 W by a quantum-dot tapered optical amplifier and a mode-locked laser emitting at 1.26 µm

Christoph Weber; Lukas Drzewietzki; Mattia Rossetti; Tianhong Xu; Paolo Bardella; Hercules Simos; Charis Mesaritakis; Mike Ruiz; Igor Krestnikov; Daniil Livshits; Michel Krakowski; Dimitris Syvridis; Ivo Montrosset; Edik U Rafailov; Wolfgang Elsäßer; Stefan Breuer

doi:10.1364/OL.40.000395

Picosecond pulse amplification up to a peak power of 42 W by a quantum-dot tapered optical amplifier and a mode-locked laser emitting at 1.26 µm

Opt Lett. 2015 Feb 1;40(3):395-8. doi: 10.1364/OL.40.000395.

Authors

Christoph Weber, Lukas Drzewietzki, Mattia Rossetti, Tianhong Xu, Paolo Bardella, Hercules Simos, Charis Mesaritakis, Mike Ruiz, Igor Krestnikov, Daniil Livshits, Michel Krakowski, Dimitris Syvridis, Ivo Montrosset, Edik U Rafailov, Wolfgang Elsäßer, Stefan Breuer

PMID: 25680056
DOI: 10.1364/OL.40.000395

Abstract

We experimentally study the generation and amplification of stable picosecond-short optical pulses by a master oscillator power-amplifier configuration consisting of a monolithic quantum-dot-based gain-guided tapered laser and amplifier emitting at 1.26 µm without pulse compression, external cavity, gain- or Q-switched operation. We report a peak power of 42 W and a figure-of-merit for second-order nonlinear imaging of 38.5 W2 at a repetition rate of 16 GHz and an associated pulse width of 1.37 ps.