Title :
High energy, monolithic fiber femtosecond lasers
Author :
Mielke, Matthias ; Peng, X. ; Kim, Kunsu ; Booth, Tim ; Lee, Wei-Jen ; Masor, G. ; Gu, Xingfa ; Lu, R. ; Hamamoto, Masaki ; Cline, R. ; Nicholson, John ; Fini, John ; Liu, Xindong ; DeSantolo, A. ; Westbrook, Paul ; Windeler, R. ; Monberg, Eric ; DiMarcel
Author_Institution :
Raydiance, Petaluma, CA, USA
Abstract :
The paper presents monolithic fiber-optic CPA systems - where the mode-locked oscillator, pulse stretcher, pulse shaper, pulse picker, and all amplifier stages are comprised of fusion spliced fiber devices - emitting up to 300 μJ compressed pulse output with duration <;500 fs (FWHM). This is a 6 times higher pulse energy than previously reported for monolithic fiber femtosecond lasers. Higher femtosecond pulse energy enables cutting and drilling through thicker materials, at faster rates, without imposing a heat affected zone (HAZ). Generating this femtosecond beam with a monolithic fiber-optic system provides the most compact and stable form factor, suitable for industrial work cell integration and global factory deployment.
Keywords :
high-speed optical techniques; laser mode locking; optical fibre amplifiers; optical pulse compression; optical pulse shaping; splicing; compressed pulse output; fiber-optic CPA systems; fusion spliced fiber devices; high energy fiber femtosecond lasers; mode-locked oscillator; monolithic fiber femtosecond lasers; pulse shaper; pulse stretcher; Chirp; Fiber lasers; Laser applications; Laser modes; Optical fiber amplifiers; Optical fiber devices; Prototypes;
Conference_Titel :
Lasers and Electro-Optics Europe (CLEO EUROPE/IQEC), 2013 Conference on and International Quantum Electronics Conference
Conference_Location :
Munich
Print_ISBN :
978-1-4799-0593-5
DOI :
10.1109/CLEOE-IQEC.2013.6801990
