引用本文:
【打印本页】   【HTML】   【下载PDF全文】   View/Add Comment  【EndNote】   【RefMan】   【BibTex】
过刊浏览    高级检索
本文已被:浏览 212次   下载 141  
分享到: 微信 更多
Optical spectroscopy of Pr3+ ion singly doped LiLuF4 single crystal By Bridgman method
Haiping Xia
Author NameAffiliationE-mail
Haiping Xia Key laboratory of Photoelectronic Materials, Ningbo University hpxcm@nbu.edu.cn 
Abstract:
High quality LiLuF4 single crystals doped with various Pr3+ ions were synthesized by a vertical Bridgman method in completely sealed Platinum(Pt) crucibles. The excitation spectra spans from 420 to 500 nm. The prepared single crystals exhibit a blue band at 480 nm (3P0→3H4), a green band at 522 nm (3P1→3H5) and a red band at 605 nm (1D2→3H4) when excited at 446 nm and their corresponding average lifetimes are 38.5 μs, 37.3 μs, and 36.8 μs, respectively, which are much longer than those in oxide single crystals. The effects of excitation wavelength and doping concentration on emission intensities and chromaticity coordinates are investigated. The optimal Pr3+ concentration is confirmed to be 0.5 mol%. The temperature dependent emission found that the emission intensity constantly decrease with the increase of temperature from 298 to 443 K due to the enhancement of non-radiative quenching at high temperature. The 3P0→3H4 transition is most vulnerable to temperature, followed by the 3P1→3H5 transition and 1D2→3H4 transition.
Key words:  Pr3+ ion, LiLuF4 single crystal,Optical
FundProject:
Optical spectroscopy of Pr3+ ion singly doped LiLuF4 single crystal By Bridgman method
夏海平
摘要:
High quality LiLuF4 single crystals doped with various Pr3+ ions were synthesized by a vertical Bridgman method in completely sealed Platinum(Pt) crucibles. The excitation spectra spans from 420 to 500 nm. The prepared single crystals exhibit a blue band at 480 nm (3P0→3H4), a green band at 522 nm (3P1→3H5) and a red band at 605 nm (1D2→3H4) when excited at 446 nm and their corresponding average lifetimes are 38.5 μs, 37.3 μs, and 36.8 μs, respectively, which are much longer than those in oxide single crystals. The effects of excitation wavelength and doping concentration on emission intensities and chromaticity coordinates are investigated. The optimal Pr3+ concentration is confirmed to be 0.5 mol%. The temperature dependent emission found that the emission intensity constantly decrease with the increase of temperature from 298 to 443 K due to the enhancement of non-radiative quenching at high temperature. The 3P0→3H4 transition is most vulnerable to temperature, followed by the 3P1→3H5 transition and 1D2→3H4 transition.
关键词:  Pr3+ ion, LiLuF4 single crystal,Optical
DOI:
分类号: