Advanced search
1 file | 232.31 KB Add to list

K2YF5 crystal symmetry determined by using rare-earth ions as paramagnetic probes

(2007) PHYSICAL REVIEW B. 75(14).
Author
Organization
Abstract
The electron paramagnetic resonance angular dependences for Gd3+ and Ce3+ centers in K2YF5 crystals show that the Y3+ site has monoclinic C-h symmetry in these crystals. This site symmetry is compatible with the crystal structure having the Pnam space group. From the zero-field splitting parameters of the Gd3+ center, it is deduced that the symmetry of the Y3+ sites is close to trigonal around the b axis, distorted by the overall orthorhombic symmetry of the crystal structure. This information is required for the identification of radiation-induced centers in this material, which shows favorable properties for applications as thermoluminescent dosimeter.

Downloads

  • published version.pdf
    • full text (Published version)
    • |
    • open access
    • |
    • PDF
    • |
    • 232.31 KB

Citation

Please use this url to cite or link to this publication:

MLA
Loncke, Frank, et al. “K2YF5 Crystal Symmetry Determined by Using Rare-Earth Ions as Paramagnetic Probes.” PHYSICAL REVIEW B, vol. 75, no. 14, 2007, doi:10.1103/PhysRevB.75.144427.
APA
Loncke, F., Zverev, D., Vrielinck, H., Khaidukov, N., Matthys, P., & Callens, F. (2007). K2YF5 crystal symmetry determined by using rare-earth ions as paramagnetic probes. PHYSICAL REVIEW B, 75(14). https://doi.org/10.1103/PhysRevB.75.144427
Chicago author-date
Loncke, Frank, Dmitry Zverev, Henk Vrielinck, NM Khaidukov, Paul Matthys, and Freddy Callens. 2007. “K2YF5 Crystal Symmetry Determined by Using Rare-Earth Ions as Paramagnetic Probes.” PHYSICAL REVIEW B 75 (14). https://doi.org/10.1103/PhysRevB.75.144427.
Chicago author-date (all authors)
Loncke, Frank, Dmitry Zverev, Henk Vrielinck, NM Khaidukov, Paul Matthys, and Freddy Callens. 2007. “K2YF5 Crystal Symmetry Determined by Using Rare-Earth Ions as Paramagnetic Probes.” PHYSICAL REVIEW B 75 (14). doi:10.1103/PhysRevB.75.144427.
Vancouver
1.
Loncke F, Zverev D, Vrielinck H, Khaidukov N, Matthys P, Callens F. K2YF5 crystal symmetry determined by using rare-earth ions as paramagnetic probes. PHYSICAL REVIEW B. 2007;75(14).
IEEE
[1]
F. Loncke, D. Zverev, H. Vrielinck, N. Khaidukov, P. Matthys, and F. Callens, “K2YF5 crystal symmetry determined by using rare-earth ions as paramagnetic probes,” PHYSICAL REVIEW B, vol. 75, no. 14, 2007.
@article{385313,
  abstract     = {{The electron paramagnetic resonance angular dependences for Gd3+ and Ce3+ centers in K2YF5 crystals show that the Y3+ site has monoclinic C-h symmetry in these crystals. This site symmetry is compatible with the crystal structure having the Pnam space group. From the zero-field splitting parameters of the Gd3+ center, it is deduced that the symmetry of the Y3+ sites is close to trigonal around the b axis, distorted by the overall orthorhombic symmetry of the crystal structure. This information is required for the identification of radiation-induced centers in this material, which shows favorable properties for applications as thermoluminescent dosimeter.}},
  articleno    = {{144427}},
  author       = {{Loncke, Frank and Zverev, Dmitry and Vrielinck, Henk and Khaidukov, NM and Matthys, Paul and Callens, Freddy}},
  issn         = {{2469-9950}},
  journal      = {{PHYSICAL REVIEW B}},
  language     = {{eng}},
  number       = {{14}},
  pages        = {{7}},
  title        = {{K2YF5 crystal symmetry determined by using rare-earth ions as paramagnetic probes}},
  url          = {{http://doi.org/10.1103/PhysRevB.75.144427}},
  volume       = {{75}},
  year         = {{2007}},
}

Altmetric
View in Altmetric
Web of Science
Times cited: