Continuous-wave Laser on Er,Yb-Codoped Pentaborate Crystal

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION Devices and Methods of Measurements Pub Date : 2019-12-11 DOI:10.21122/2220-9506-2019-10-4-301-307

K. Gorbachenya, V. Kisel, R. Deineka, A. Yasukevich, N. Kuleshov, V. Maltsev, D. Mitina, E. Volkova, N. Leonyuk

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引用次数: 2

Abstract

We report, for the first time to our knowledge, a diode-pumped continuous-wave microchip Er,Yb:YMgB5O10 laser. The purpose of this work was to study the growth technique, spectroscopic properties and continuous-wave laser performance of Er3+,Yb3+:YMgB5O10 novel crystal. Absorption and luminescence spectra as well as kinetics of luminescence decay were studied. Ytterbium-erbium energy transfer efficiency was determined. The output characteristics (output power, slope efficiency, laser wavelength) of Er3+,Yb3+:YMgB5O10 laser were determined.Two intensive absorption bands with peaks centered at 937 nm and 976 nm were observed in the absorption spectra at the wavelength near 1 μm. The maximum value of absorption cross-section was determined to be 1.5·10–20 cm2 at 976 nm for polarization E//Ng . A number of narrow lines were observed in the absorption spectra in the 1425–1575 nm spectral range (transition 4I15/2 → 4I13/2 of erbium ions). The lifetime of the upper laser level 4I13/2 of Er3+ ions was determined to be 390 ± 20 μs. The ytterbium-erbium energy transfer efficiency for YMgB5O10 crystal with 2 at.% of Er3+ and 11 at.% for Yb3+ was close to 84 %. The maximal continuous-wave output power of 0.2 W with slope efficiency of 8 % regarding to absorbed pump power was realized at the wavelength of 1570 nm. With the improvement of cavity parameters the output laser performance of the Er,Yb:YMgB5O10 crystal can be further enhanced.Taking into account high thermal conductivity of ≈ 6.2 W·m–1·K–1, the Er,Yb:YMgB5O10 crystal can be considered as a good gain medium for 1.5 μm lasers for applications in laser rangefinder and LIDAR systems.

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铒镱共掺五硼酸盐晶体上的连续波激光

据我们所知，我们首次报道了一种二极管泵浦连续波微芯片Er,Yb:YMgB5O10激光器。本文研究了Er3+，Yb3+:YMgB5O10新型晶体的生长工艺、光谱特性和连续波激光性能。研究了其吸收光谱和发光光谱以及发光衰减动力学。测定了铒镱能量传递效率。测定了Er3+、Yb3+:YMgB5O10激光器的输出特性(输出功率、斜率效率、激光波长)。在波长1 μm附近的吸收光谱中观察到两个以937 nm和976 nm为中心的强吸收带。在976 nm处，E//Ng的吸收截面最大值为1.5·10-20 cm2。在1425 ~ 1575 nm的光谱范围内(铒离子跃迁4I15/2→4I13/2)出现了许多窄谱线。Er3+离子上激光能级4I13/2的寿命为390±20 μs。含2 at的YMgB5O10晶体的镱铒能量传递效率。%的Er3+和11at。%， Yb3+接近84%。在1570 nm波长处，最大连续波输出功率为0.2 W，相对于吸收泵浦功率的斜率效率为8%。随着腔参数的改善，Er,Yb:YMgB5O10晶体的输出激光性能可以进一步增强。由于Er,Yb:YMgB5O10晶体具有≈6.2 W·m-1·K-1的高导热系数，可被认为是用于激光测距仪和激光雷达系统的1.5 μm激光器的良好增益介质。

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Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-

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8 weeks