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Efficient 2.76 <i>μ</i> m continuous-wave laser in extremely lightly Er-doped CaF <sub>2</sub> single-crystal fiber

Zhen Zhang, Qinghui Wu, Yangxiao Wang, Zhonghan Zhang, Jingya Wang, Jingjing Liu, Jie Liu, Liangbi Su

2020Laser Physics Letters21 citationsDOI

Abstract

Abstract Rare-earth-doped single-crystal fibers are promising for use in developing high-power lasers due to their improved thermal management and excellent optical properties. In this work, Er-doped CaF 2 single-crystal fibers of good optical quality were successfully grown by a modified temperature gradient technique method. For the characteristic clustering effect of trivalent rare earth ions within fluorite crystals, a high-efficiency 2759.1 nm laser was obtained in a 1 at.% Er-doped CaF 2 crystal fiber. Moreover, even in an extremely lightly doped crystal fiber with a concentration of 0.5 at.%, a continuous-wave (CW) 2758.2 nm laser with a slope efficiency of 20% was achieved. Without the cascade lasing, a ~2.8 μ m CW laser operation pumped by a laser diode was first demonstrated in the case of a Er 3+ doping concentration below 1 at.%. The results suggest that Er-doped CaF 2 single-crystal fibers are promising for mid-infrared lasers.

Topics & Concepts

Materials scienceDopingFiber laserContinuous waveFiberLaserOptoelectronicsCrystal (programming language)Single crystalOpticsComposite materialPhysicsCrystallographyChemistryComputer scienceProgramming languageSolid State Laser TechnologiesPhotonic Crystal and Fiber OpticsAdvanced Fiber Laser Technologies
Efficient 2.76 <i>μ</i> m continuous-wave laser in extremely lightly Er-doped CaF <sub>2</sub> single-crystal fiber | Litcius