摘要
采用坩埚下降法,制备了尺寸为Φ10mm×110mm的高质量Tm3+掺杂LiYF4(YLF:Tm3+)单晶体。测试了样品的电感耦合等离子(ICP)、X光衍射(XRD)吸收光谱以及790nm LD激发下的荧光光谱。应用Judd-Ofelt理论计算了Tm3+在YLF∶Tm3+单晶材料中的唯象强度参数Ωt、能级跃迁振子强度Pexp、自发辐射跃迁几率A、荧光分支比β和辐射寿命τrad等光谱参数,同时计算了1 800nm波段的吸收截面和受激发射截面分别为σabs=0.52×10-20 cm2和σem=0.67×10-20 cm2。在荧光光谱中观察到1 470nm与1 800nm的荧光发射,它们分别对应于Tm3+的3 H4→3 F4与3 F4→3 H6的能级跃迁。测定了1 800nm波段的荧光寿命,并计算得到3 F4→3 H6跃迁的量子效率为79.22%。
Tm^3+ doped LiYF4single crystal in size of Φ 10mm×110mm with high quality was grown by the Bridgman method.The XRD,absorption spectrum,and emission spectrum of the sample under 790nm excitation are measured.The intensity parameters (Ωt ),oscillator strength (Pexp),transitio n probabilities(A),branching rations(β) and radiation lifetime (τr ad) of Tm3+ ions in the LiYF4were estimated by using the Judd-Ofelt theory. The absorption and emission cross sections around 1800nm were calculat ed to be 0.52×10^-20cm^2and 0.67×10^-20cm^2,respectively.The emission bands are 1470nm and 1800nm,which are corresponding to 3H4→3F4and 3F4→3H6transitions of Tm3+ ion.The emission lifetime at 1800nm is recorded,and the quantum efficiency is calculated to be 79.22%.
出处
《光电子.激光》
EI
CAS
CSCD
北大核心
2013年第11期2143-2149,共7页
Journal of Optoelectronics·Laser
基金
国家自然科学基金(51272109
50972061
61275180)
浙江省自然科学基金(R4100364
Z4110072)
宁波市自然科学基金(2012A610115)
宁波大学王宽诚幸福基金资助项目
