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High-efficiency 940- and 969-nm brightness-maintaining wavelength-multiplexed LD-pumped 240-W thin-rod Yb:YAG amplifier

Shang Wang, Zhenhua Cong, Junliang Liu, Xingyu Zhang, Zhigang Zhao, Zhaojun Liu

2022Optics Letters31 citationsDOI

Abstract

A high-efficiency ultrafast laser amplifier based on thin-rod Yb:YAG was demonstrated, featuring a 940- and 969-nm brightness-maintaining wavelength-multiplexed laser diode (LD)-pumping method. Two high-brightness LDs (940 nm and 969 nm) were spectrally combined into one beam spatially with a dichroic mirror, thus enabling twice pump power while maintaining high brightness. A maximum signal power of 240 W was obtained at a repetition rate of 1 MHz, with a power extraction efficiency (PEE) of ∼51%. To the best of the authors’ knowledge, this is the first report of >50% efficiency as well as the highest average power operating at the fundamental mode for thin-rod Yb:YAG amplifiers. The beam quality factors (M 2 ) of the amplified signal were measured to be 1.72 and 1.12 for the horizontal and vertical directions, respectively. A preliminary pulse compression was conducted at a signal power of 80 W with a chirped volume Bragg grating (CVBG) compressor. The compressed pulse duration was 744 fs with an average power of 66.5 W, corresponding to a compression efficiency of 83.1%.

Topics & Concepts

OpticsAmplifierMaterials sciencePulse compressionUltrashort pulseLaser beam qualitySIGNAL (programming language)LaserPower (physics)Pulse durationBeam (structure)Fiber Bragg gratingOptoelectronicsRF power amplifierBeam splitterSemiconductor laser theoryOptical amplifierLaser power scalingDiodeInjection seederDichroic glassAmplified spontaneous emissionM squaredLaser diodeChirped pulse amplificationFiber laserPulse-width modulationGratingFemtosecond pulse shapingOutput couplerElectrical efficiencyPulse (music)Mode-lockingSolid State Laser TechnologiesPhotorefractive and Nonlinear OpticsLaser-Matter Interactions and Applications