激光器
激光阈值
化学
Crystal(编程语言)
兴奋剂
波长
吸收(声学)
钕
光学
分析化学(期刊)
光电子学
材料科学
物理
色谱法
计算机科学
程序设计语言
作者
Lingyun Li,Fazheng Huang,Yi Shi,Zhong‐Zhen Luo,Guoqiang Wang,Xin‐Xiong Li,Bingxuan Li,Lizhen Zhang,Yi Yu,Ya‐Nan Feng,Chengkai Yang,Yan Yu,Kenneth R. Poeppelmeier
摘要
Multi-wavelength lasers, especially the triple-wavelength laser around 1060 nm, could be produced by the 4F3/2 → 4I11/2 transition of Nd3+ and present numerous challenges and opportunities in the field of optoelectronics. The Nd3+-doped high-temperature phase of LaBSiO5 (β-LBSO) is an ideal crystal to produce triple-wavelength lasers; however, the crystal growth is challenging because of the phase transition from β-LBSO to low-temperature phase (α-LBSO) at 162 °C. This phase transition is successfully suppressed when the doping content of Nd3+ is larger than 6.3 at. %, and the Nd3+-doped β-LBSO is stable at room temperature. The local disorder of BO4 tetrahedra due to Nd3+ doping is essential to the stabilization of β-LBSO. For the first time, the β-LBSO:8%Nd3+ crystal with a dimension of 1.8 × 1.8 × 1.8 cm3 is obtained through the top-seeded solution method. The crystal shows strong optical absorption in the range of 785-815 nm, matching well with the commercial laser diode pumping source. The optical emission of 4F3/2 → 4I11/2 splits into four peaks with the highest optical emission cross section of 2.14 × 10-20 cm2 at 1068 nm. The continuous-wave triple-wavelength generation of coherent light at 1047, 1071, and 1092 nm is achieved with the highest output power of 235 mW and efficiency of 12.1%.
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