Cr,Nd:CaYAlO4 single crystals were grown by the floating zone method and their spectroscopic properties were investigated. Many voids were observed in the crystals grown with a stoichiometric feed rod even at a relatively low growth rate of 2.5 mm/h, while a void-free crystal was grown at the same growth rate using a feed rod the composition of which was Y-rich to Ca. These results indicate that voids were attributable to constitutional supercooling due to the segregation of main constituents caused by the difference in congruent and stoichiometric compositions. The as-grown crystals were deep red and showed strong absorption in the wavelength region of 320-600 nm. The absorption cross section for sigma-polarization at 430 nm, where Cr,Nd:YAG has the maximum absorption, is about 1160 x 10(-20) cm(2), which is 165 times as large as that of Cr,Nd:YAG. By pumping at 400 nm, which is a pad of the absorption band of Cr3+ Cr,Nd:CaYAlO4 showed fluorescence bands around 900 am and 1080 nm by Nd3+ indicating energy transfer from Cr3+ to Nd3+ in the crystal. Cr,Nd:CaYAlO4 single crystals are therefore one of the promising gain media for solar-pumped solid state laser systems.
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机译:Cr,Nd:CaYAlO4单晶通过浮区法生长,并研究了其光谱性质。即使以相对较低的2.5 mm / h的生长速度,在以化学计量的进料棒生长的晶体中也观察到许多空隙,而使用组成为Y-的进料棒以相同的生长速率生长了无空隙的晶体。丰富到钙。这些结果表明,空洞可归因于全相和化学计量组成的差异引起的主要成分的偏析而导致的结构过冷。所生长的晶体为深红色,并在320-600 nm的波长范围内显示出强吸收性。 Cr,Nd:YAG具有最大吸收率的430 nm的σ极化吸收截面约为1160 x 10(-20)cm(2),是Cr,Nd的165倍: YAG。通过泵浦400 nm(这是Cr3 +吸收带的垫层),Nd:CaYAlO4在Nd3 +的900 nm和1080 nm附近显示荧光带,表明能量从晶体中的Cr3 +转移到Nd3 +。因此,Cr,Nd:CaYAlO4单晶是太阳能泵浦固态激光器系统中有希望的增益介质之一。
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