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&gt;50 MW peak power, high brightness Nd:YAG/Cr<sup>4+</sup>:YAG microchip laser with unstable resonator

Hwan Hong Lim, Takunori Taira

2022Optics Express25 citationsDOIOpen Access PDF

Abstract

We demonstrated a flat-convex unstable cavity Nd:YAG/Cr 4+ :YAG ceramic air-cooled microchip laser (MCL) generating a record 37.6 and 59.2 MW peak power pulses with an energy of 17.0 and 24.1 mJ and a width of 452 and 407 ps at 20 Hz by using a uniform power square and hexagon pump, respectively. For hexagon pump, the near field hexagon donut beam was changed in to a Bessel-like beam in far field, whose beam quality was estimated as 2 nd moment M 2 of 7.67. The brightness scale of unstable resonator MCL was achieved up to 88.9 TW/(sr·cm 2 ) in contrast with flat-flat cavity MCL. However, the high intense center part of Bessel-like beam increased its brightness effectively more than 8 times, up to 736 TW/(sr·cm 2 ).

Topics & Concepts

OpticsBrightnessMaterials scienceResonatorLaser beam qualityBeam (structure)LaserBeam diameterOutput couplerOptical cavityPower (physics)Quality (philosophy)M squaredOptoelectronicsRegenerative amplificationLaser power scalingSquare (algebra)Light beamRoot mean squareLaser beamsFull width at half maximumBeam parameter productLaser linewidthNear and far fieldMoment (physics)Contrast ratioSolid State Laser TechnologiesLaser Design and ApplicationsPhotorefractive and Nonlinear Optics
&gt;50 MW peak power, high brightness Nd:YAG/Cr<sup>4+</sup>:YAG microchip laser with unstable resonator | Litcius