摘要
本文采用助熔剂籽晶提拉法生长出了Nd:KWG激光晶体。化学组成和结构分析认为,所得的晶体是β-KGd(WO4)2。通过红外光谱和喇曼光谱判断了它的振动归属,通过紫外可见吸收光谱的测定得到了它的峰值吸收截面值。
Recently, the neodymium-doped crystal Nd3+ KGd(WO4)2, (or Nd: KWG) lasing at 1067nm was demonstrated that it exhibits highly efficient free-running operation. The laser crystal also possesses other attractive features, such as a strong and broad absorption band that makes this laser medium be an ex- cellent candidate for efficient diode pumping without temperature controlling. The absorption band at o . 8μm of Nd3 + in the crystal is well matched with the emission wavelength of diode, a solid state laser pump which is very convenient and popular in laser science and technology today. Nd: KWG crystal was grown by the TSSG slow cooling method from a suitable flux K2W2O7. TG-DTA tests show Nd: KWG (5at %) crystal has a phase transition at 984℃, which is below the melting point 1044℃. The lower value compared with pure KGW can be explained by the doping of Nd3+ XFA shows the existence of element of W, K, Gd,O, Nd. And the intensities agree with the proportion of raw materials. In IR and Raman spectra, it can be observed that the Ln-O vibration transitions are at 400. 4cm -1, 408cm -1,atom group WO4 flex vibration at 344.8~429cm-1and atom group WO4 bend vibration at 750~ 899.5cm-1. The absorption spectrum of Nd: KWG crystal was measured. It should be noted that there is a strong absorption band at 808nm, the emission wavelength of the laser diode. And, we also calculated the absorption cross sections.
出处
《发光学报》
EI
CAS
CSCD
北大核心
2001年第4期389-392,共4页
Chinese Journal of Luminescence
