摘要
合成了一族新的氟化镓铟玻璃,研究了InF3-PbF2-ZnF2-CdF2(BaF2)体系和GaF3-CdF2-PbF2(ZnF2)体系的玻璃形成区域.经玻璃组分试验研究得到了稳定的30PbF2-20GaF3-15InF3-20CdF2-15ZnF2(简化为PGICZ)玻璃,通过优化细调组分,可制得14mm厚块玻璃和具有芯皮结构的光纤.红外和Raman光谱研究结果表明:PGICZ玻璃具有较氟锆酸盐(简化为ZBLAN)玻璃更宽的红外透过范围和更低的声子能量.Pr3+掺杂PGICZ玻璃的1G4能级寿命可达210μs,其量子效率为7%,是通常ZBLAN玻璃的一倍,故它是最可能作为掺镨光纤放大器的实用化体系之一.
New fluoride glasses based on gallium and indium fluorides were explored. Researches on glass forming regions, stable composition and physical properties of InF 3-PbF 2-ZnF 2-Cd(Ba)F 2 and GaF 3-CdF 2-Pb(Zn)F 2 systems were carried out systematically. Stable 30PbF 2-20GaF 3-15InF 3-20CdF 2-15ZnF 2 (PGICZ) glasses were obtained. The decrease of the phonon energy in PGICZ, by comparison with current ZrF 4-BaF 2-LaF 3-AlF 3-NaF (ZBLAN) glass was confirmed by IR and Raman studies. For Pr 3+ _doped PGICZ glasses the 1 G 4 fluorescence lifetime of 210 μs and the corresponding quantum efficiency of 7% are achieved, which are two times higher than those of ZBLAN (only 110 μs and 3%).
出处
《硅酸盐学报》
EI
CAS
CSCD
北大核心
1998年第1期103-108,共6页
Journal of The Chinese Ceramic Society
关键词
氟化镓
玻璃
氟化铟
错掺杂玻璃
fluorogallate glass, fluoroindate glass, praseodymium ion_doped glass, 1.3μm optical fiber amplifier
