Impulsive SRS in tetragonal t-YVO4, t-GdVO4and monoclinic m-LaVO4vanadate host-crystals for Ln3+-lasant ions

Yoneda, Hitoki; Zhang, Jian; Yu, Haohai; Kaminskii, Alexander A.

doi:10.1002/pssb.201600275

Cited by 7 publications

(4 citation statements)

References 45 publications

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“…They are taken as the adjustable parameters determined by fitting the experimental spin-Hamiltonian parameters with the above formulas. The calculations indicate that the good fit of the observed spin-Hamiltonian parameters of the (TiO4) 5− cluster in ZrSiO4: Ti 3+ crystal requires f  0.732, ) ( 4 R A  996 cm −1 , Δ  −2.9,   0.57 (7) The calculated spin-Hamiltonian parameters g//, g⊥, 47 A//, 47 A⊥, 49 A//, and 49 A⊥ along with the experimental values are given in Table 1.…”

Section: Calculationmentioning

confidence: 83%

“…It can be used as the Raman or Infrared spectroscopy-based pressure sensor [2,3] (because its Raman shifts and IR spectra are highly sensitive to the pressure applied) and the matrix material of ceramic pigment [4,5]. Importantly, ZrSiO4 and materials with zircon-type structure doped with transition (d n ) and rare earth (4f n ) ions can be applied as the laser, phosphor and luminescence materials [6][7][8][9][10]. These applications are connected with defects (which can be caused by radiation and doping) in zircon and zircon-type crystals.…”

Section: Introductionmentioning

confidence: 99%

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Investigations of the Spin-Hamiltonian Parameters and Defect Structure for the (TiO4)5− Tetrahedral Clusters in ZrSiO4: Ti3+ Crystal

Yang

2023

Appl Magn Reson

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The spin-Hamiltonian parameters (g factors g//, g⊥ and hyperfine structure constants 47 Ai, 49 Ai, where i = // or ⊥, 47 Ai and 49 Ai denote the values of isotopes 47 Ti 3+ and 49 Ti 3+ ) of the Ti 3+ ions at the tetrahedral Si 4+ sites in ZrSiO4 crystal are computed from the high-order perturbation formulas based on the cluster approach where the contributions due to both the d orbitals of central d n ion and p orbitals of ligand ion are considered. The calculated results are reasonably coincident with the experimental values. The defect structure of (TiO4) 5− impurity cluster which differs from the replaced host (SiO4) 4− cluster in ZrSiO4 is evaluated in the calculation. The results are discussed.

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Section: Calculationmentioning

confidence: 83%

Section: Introductionmentioning

confidence: 99%

Investigations of the Spin-Hamiltonian Parameters and Defect Structure for the (TiO4)5− Tetrahedral Clusters in ZrSiO4: Ti3+ Crystal

Yang

2023

Appl Magn Reson

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Section: Introductionmentioning

confidence: 99%

Investigations of the spin-Hamiltonian parameters and defect structure for the (TiO 4 ) 5− tetrahedral clusters in ZrSiO 4 : Ti 3+ crystal

Yang

2023

Preprint

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The spin-Hamiltonian parameters (g factors g//, g⊥ and hyperfine structure constants 47Ai, 49Ai, where i = // or ⊥, 47Ai and 49Ai denote the values of isotopes 47Ti3+ and 49Ti3+) of the Ti3+ ions at the tetrahedral Si4+ sites in ZrSiO4 crystal are computed from the high-order perturbation formulas based on the cluster approach where the contributions due to both the d orbitals of central dn ion and p orbitals of ligand ion are considered. The calculated results are reasonably coincident with the experimental values. The defect structure of (TiO4)5− impurity cluster which differs from the replaced host (SiO4)4− cluster in ZrSiO4 is evaluated in the calculation. The results are discussed.

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“…Vanadate hosts are suitable for classical − and upconversion ,, luminescence systems. Potential applications of rare earth vanadates include lasers, biotechnology and bioimaging, ,, chemical , and near-field sensors, as well as dye-sensitized solar cells. , …”

Section: Introductionmentioning

confidence: 99%

Effects of Dopant Addition on Lattice and Luminescence Intensity Parameters of Eu(III)-Doped Lanthanum Orthovanadate

et al. 2016

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A series of La 1−x Eu x VO 4 samples with a different Eu 3+ content was synthesized via a hydrothermal route. An increase in the dopant content resulted in a decrease in lattice constants of the materials. Plane-wave DFT calculations with PBE functional in CASTEP confirmed this trend. Next, CASTEP calculations were used to obtain force constants of Eu−O bond stretching, using a novel approach which involved displacement of the Eu 3+ ion. The force constants were then used to calculate charge donation factors g for each ligand atom. The chemical bond parameters and the geometries from DFT calculations were used to obtain theoretical Judd−Ofelt intensity parameters Ω λ . The effects of geometry changes caused by the dopant addition were analyzed in terms of Ω λ . The effects of distortions in interatomic angles of the Eu 3+ coordination geometry on the Ω λ were analyzed. Effects of distortions of atomic positions in the crystal lattice on the Ω λ and photoluminescence intensities of Eu 3+ 4f−4f transitions were discussed. It was shown that the ideal database geometry of LaVO 4 corresponds to the highly symmetric coordination geometry of Eu 3+ and very low Ω 2 . On the contrary, experimental intensities of the 5 D 0 → 7 F 2 transition and the corresponding Ω 2 parameters were high. Consequently, distortions of crystal structure that reduce the symmetry play an important role in the luminescence of the LaVO 4 :Eu 3+ materials and probably other Eu 3+ -doped phosphors based on zircon-type rare earth orthovanadates.

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Impulsive SRS in tetragonal t-YVO₄, t-GdVO₄and monoclinic m-LaVO₄vanadate host-crystals for Ln³⁺-lasant ions

Cited by 7 publications

References 45 publications

Investigations of the Spin-Hamiltonian Parameters and Defect Structure for the (TiO4)5− Tetrahedral Clusters in ZrSiO4: Ti3+ Crystal

Investigations of the Spin-Hamiltonian Parameters and Defect Structure for the (TiO4)5− Tetrahedral Clusters in ZrSiO4: Ti3+ Crystal

Investigations of the spin-Hamiltonian parameters and defect structure for the (TiO 4 ) 5− tetrahedral clusters in ZrSiO 4 : Ti 3+ crystal

Effects of Dopant Addition on Lattice and Luminescence Intensity Parameters of Eu(III)-Doped Lanthanum Orthovanadate

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