Litcius/Paper detail

1.2 kW all-fiber narrow-linewidth picosecond MOPA system

Jiexi Zuo, Haijuan Yu, Shuzhen Zou, Zhiyong Dong, Chaojian He, Shuang Xu, Chaoyu Ning, Xuechun Chen, Xinyao Li, Xuechun Lin

2023High Power Laser Science and Engineering15 citationsDOIOpen Access PDF

Abstract

Abstract Achieving an all-fiber ultra-fast system with above kW average power and mJ pulse energy is extremely challenging. This paper demonstrated a picosecond monolithic master oscillator power amplifier system at a 25 MHz repetition frequency with an average power of approximately 1.2 kW, a pulse energy of approximately 48 μJ and a peak power of approximately 0.45 MW. The nonlinear effects were suppressed by adopting a dispersion stretched seed pulse (with a narrow linewidth of 0.052 nm) and a multi-mode master amplifier with an extra-large mode area; then an ultimate narrow bandwidth of 1.32 nm and a moderately broadened pulse of approximately 107 ps were achieved. Meanwhile, the great spatio-temporal stability was verified experimentally, and no sign of transverse mode instability appeared even at the maximum output power. The system has shown great power and energy capability with a sacrificed beam propagation product of 5.28 mm $\cdot$ mrad. In addition, further scaling of the peak power and pulse energy can be achieved by employing a lower repetition and a conventional compressor.

Topics & Concepts

Materials sciencePicosecondAmplifierOpticsLaser linewidthPower (physics)Pulse (music)OptoelectronicsLaserPhysicsQuantum mechanicsCMOSDetectorPhotonic Crystal and Fiber OpticsAdvanced Fiber Laser TechnologiesLaser-Matter Interactions and Applications