Determination of charge-compensated C3v (Ⅱ) centers for Er3+ ions in CdF2 and CaF2 crystals

被引:0
作者
柴瑞鹏 [1 ]
郝丹辉 [2 ]
高当丽 [1 ]
庞庆 [1 ]
机构
[1] College of Science, Xi'an University of Architecture and Technology
[2] Xi'an University of Architecture and Technology Huaqing College
来源
Chinese Physics B | 2021年 / 30卷 / 03期
基金
中国国家自然科学基金;
关键词
D O I
暂无
中图分类号
O469 [凝聚态物理学];
学科分类号
070205 ;
摘要
A unified theoretical method is established to determine the charge-compensated C3 v(Ⅱ) centers of Er3+ions in CdF2and CaF2crystals by simulating the electron paramagnetic resonance(EPR) parameters and Stark energy levels.The potential(Er3+-F~--O42-) and(Er3+-F7~--O2-) structures for the O3 v(Ⅱ) centers of Er3+ions in CdF2and CaF2crystals are checked by diagonalizing 364×364 complete energy matrices in the scheme of superposition model.Our studies indicate that the C3 v(Ⅱ) centers of Er3+ions in CdF2and CaF2may be ascribed to the local(Er3+-F~--O42-) structure,where the upper ligand ion F~-undergoes an off-center displacement by ΔZ≈0.3 A for CdF2and ΔZ≈0.29 A for the CaF2along the C3axis.Meanwhile,a local compressed distortion of the(ErFO4)6-cluster is expected to be ΔR≈0.07 A for CdF2:Er3+and ΔR≈0.079 A for CaF2:Er3+.The considerable g-factor anisotropy for Er3+ions in each of both crystals is explained reasonably by the obtained local parameters.Furthermore,our studies show that a stronger covalent effect exists in the C3 v(Ⅱ) center for Er3+in CaF2or CaF2,which may be due to the stronger electrostatic interaction and closer distance between the central Er3+ion and ligand O2-with the(Er3+-F~--O42-) structure.
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页码:537 / 543
页数:7
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共 30 条
  • [1] Absorption spectra, defect site distribution and upconversion excitation spectra of CaF 2 /SrF 2 /BaF 2 :Yb 3+ :Er 3+ nanoparticles[J] . Sangeetha Balabhadra,Michael F. Reid,Vladimir Golovko,Jon-Paul R. Wells.Journal of Alloys and Compounds . 2020 (prep)
  • [2] Ab initio analysis of the optical spectra and EPR parameters of Ni 2+ ions in CaF 2 and CdF 2 crystals[J] . Emiliana-Laura Andreici Eftimie,Calin N. Avram,Mikhail G. Brik,Vladimir A. Chernyshev,Nicolae M. Avram.Journal of Luminescence . 2019
  • [3] Optically stimulated luminescence of CaF 2 :Ce[J] . C.C. Lopes,V.S.M. Barros,V.K. Asfora,M.E. Yamamoto,H.J. Khoury,P. Guzzo.Journal of Luminescence . 2018
  • [4] Superhyperfine Structure of the EPR Spectra of Nd<Superscript>3+</Superscript> Impurity Ions in Fluorite CaF<Subscript>2</Subscript>[J] . L. K. Aminov,M. R. Gafurov,I. N. Kurkin,B. Z. Malkin,A. A. Rodionov.Physics of the Solid State . 2018 (5)
  • [5] Tunable multicolor and enhanced red emission of monodisperse CaF 2 :Yb 3+ /Ho 3+ microspheres via Mn 2+ doping[J] . Rui Wang,Maohui Yuan,Chaofan Zhang,Hongyan Wang,Xiaojun Xu.Optical Materials . 2018
  • [6] Luminescence of Eu3+ Activated CaF2 and SrF2 Nanoparticles: Effect of the Particle Size and Codoping with Alkaline Ions
    Cortelletti, Paolo
    Pedroni, Marco
    Boschi, Federico
    Pin, Sonia
    Ghigna, Paolo
    Canton, Patrizia
    Vetrone, Fiorenzo
    Speghini, Adolfo
    [J]. CRYSTAL GROWTH & DESIGN, 2018, 18 (02) : 686 - 694
  • [7] Improvement of the luminescent intensity of Yb/Er: CaF2 nanocrystals by combining Na+-doping and active-core/active-shell structure[J] . Lei Lei,Bingxin Xie,Yinyan Li,Junjie Zhang,Shiqing Xu.Journal of Luminescence . 2017
  • [8] Near-infrared emission and optical temperature sensing performance of Nd3+:SrF2crystal powder prepared by combustion synthesis[J] . Rakov Nikifor,Maciel Glauco S..Journal of Applied Physics . 2017 (11)
  • [9] Optical properties of Er 3+ -Yb 3+ codoped CdF 2 single crystals[J] . F. Bendjedaa,M. Diaf,E. Boulma,S. Djellab,L. Guerbous,J.P. Jouart.Journal of Alloys and Compounds . 2017
  • [10] A neutron scintillator based on transparent nanocrystalline CaF2: Eu glass ceramic[J] . Struebing, Christian,Chong, JooYun,Lee, Gyuhyon,Zavala, Martin,Erickson, Anna,Ding, Yong,Wang, Cai-Lin,Diawara, Yacouba,Engels, Ralf,Wagner, Brent,Kang, Zhitao.Applied physics letters . 2016 (15)
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