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High-efficiency 50 W burst-mode hundred picosecond green laser

Ning Ma, Meng Chen, Ce Yang, Shang Lu, Xie Zhang, Xin-Biao Du

2020High Power Laser Science and Engineering29 citationsDOIOpen Access PDF

Abstract

We report high-energy, high-efficiency second harmonic generation in a near-infrared all-solid-state burst-mode picosecond laser at a repetition rate of 1 kHz with four pulses per burst using a type-I noncritical phase-matching lithium triborate crystal. The pulses in each burst have the same time delay ( ${\sim}1~\text{ns}$ ), the same pulse duration ( ${\sim}100~\text{ps}$ ) and different relative amplitudes that can be adjusted separately. A mode-locked beam from a semiconductor saturable absorber mirror is pulse-stretched, split into seed pulses and injected into a Nd:YAG regenerative amplifier. After the beam is reshaped by aspheric lenses, a two-stage master oscillator power amplifier and 4f imaging systems are applied to obtain a high power of ${\sim}100~\text{W}$ . The 532 nm green laser has a maximum conversion efficiency of 68%, an average power of up to 50 W and a beam quality factor $M^{2}$ of 3.5.

Topics & Concepts

OpticsMaterials scienceLithium triboratePicosecondBurst mode (computing)LaserLaser beam qualityPulse durationEnergy conversion efficiencyAmplifierBeam (structure)OptoelectronicsSecond-harmonic generationPhysicsLaser beamsCMOSElectrical engineeringEngineeringLaser-Matter Interactions and ApplicationsSolid State Laser TechnologiesAdvanced Fiber Laser Technologies
High-efficiency 50 W burst-mode hundred picosecond green laser | Litcius