采用丘克拉斯基(Czochralski)技术生长了掺铥硅酸镥(Tm:Lu2SiO5,Tm:LSO)晶体; 测量了LSO晶体在室温下的非偏振吸收光谱和非偏振荧光光谱; 利用窄得-奥菲特(Judd-Ofelt)理论计算了Tm:LSO晶体的窄得-奥菲特强度参数、振子强度、自发辐射概率、辐射寿命、积分吸收截面和积分发射截面。Tm:LSO晶体的强度参数为Ω2=9.1355×10-20 cm2,Ω4=8.4103×10-20 cm2,Ω6=1.5908×10-20 cm2; Tm:LSO晶体在1.9 μm附近有明显的发射峰(3F4→3H6跃迁),相应的辐射寿命为2.03 ms,积分发射截面为5.81×10-18 cm2,半峰全宽(FWHM)为250 nm。用Tm:LSO晶体在77 K温度下实现了激光运转。利用792 nm的激光二极管(LD)作为抽运源,获得中心波长为1960 nm的激光输出,抽运阈值为2.13 kW/cm2。

为实现室温下小型化、高效率的1.9 μm激光输出,采用793.5 nm激光二极管泵浦Tm:YAP晶体,晶体采用热电制冷及风冷的方式控制在18 ℃,采用1∶1的聚焦耦系统,获得功率为2.2 W、中心波长为1 928 nm的激光输出,光光转换效率为31%,斜率效率达41%.对影响激光输出的耦合输出率、腔型、腔长、晶体工作温度等因素进行了实验分析,实验结果表明:输出功率的变化与温度基本成线性关系,当增加激光谐振腔长时,由于高阶模式损耗加大以及晶体热透镜效应的加重导致腔内损耗加大,输出功率和斜率效率都有所下降.

A high efficient diode-pumped Tm:YAP laser is reported. The maximum output power at 1981 nm is 5.2 W and the slope efficiency is 30%. Unpolarized absorption near 800 nm and unpolarized fluorescence spectra near 1800 nm pumped by laser diode (LD) are measured. In addition, the relationship between operation temperature and output power is discussed.