Title :
Nanosecond Yb-Doped Monolithic Dual-Cavity Laser Oscillator With Large Core Fiber
Author :
Dongchen Jin ; Ruoyu Sun ; Shouyu Wei ; Jiang Liu ; Pu Wang
Author_Institution :
Inst. of Laser Eng., Beijing Univ. of Technol., Beijing, China
Abstract :
A high pulse energy Yb-doped all-fiber dual-cavity laser oscillator is reported, based on the pulse generation mechanism of passive Q-switch with large core fiber saturable absorber. Sequential pulses with 49-ns pulse duration and 21-W average power operating at 1080 nm can be achieved in the scheme using the Yb-doped fiber with the core-diameter of 10 μm. The repetition rate varies from ~1 to 113.6 kHz, while the incident pump power increases. The monolithic all-fiber dual-cavity oscillator can achieve the highest pulse energy of 187 μJ. Moreover, using the all-fiber scheme with the core-diameter of uniform 20 μm, the single-pulse energy can be further scaled up to 484 μJ, which is directly the output from the all-fiber oscillator without additional amplifiers.
Keywords :
Q-switching; fibre lasers; laser beams; laser cavity resonators; optical pulse generation; optical pumping; optical saturable absorption; ytterbium; Yb-doped fiber; all-fiber oscillator; core-diameter; energy 187 muJ; energy 484 muJ; high pulse energy Yb-doped all-fiber dual-cavity laser oscillator; incident pump power; large core fiber saturable absorber; monolithic all-fiber dual-cavity oscillator; nanosecond Yb-doped monolithic dual-cavity laser oscillator; passive Q-switch; power 21 W; pulse duration; pulse generation mechanism; sequential pulses; single-pulse energy; size 10 mum; size 20 mum; time 49 ns; wavelength 1080 nm; Cavity resonators; Erbium-doped fiber lasers; Laser excitation; Optical fiber amplifiers; Optical fiber theory; Pump lasers; All-fiber; Dual-cavity; Fiber Laser; Fiber laser; Q-switch; Yb-doped Fiber; Yb-doped fiber; all-fiber; dual-cavity;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2425914
