The superposition model of crystal fields

Newman, D J; Ng, Betty

doi:10.1088/0034-4885/52/6/002

Cited by 1,127 publications

(722 citation statements)

References 177 publications

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“…The usual Stevens operators [1,2] in EMR studies [27,28] and to a lesser extend in the crystal field theory and superposition model analysis [29,30,31]. Group theory predicts that for lower symmetry cases the negative q components are required [2,3,4].…”

Section: Basic Nomenclature and Theoretical Aspectsmentioning

confidence: 99%

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Alternative zero-field splitting (ZFS) parameter sets and standardization for Mn2+ ions in various hosts exhibiting orthorhombic site symmetry

Kripal

Yadav

Gnutek

et al. 2009

Journal of Physics and Chemistry of Solids

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Section: Basic Nomenclature and Theoretical Aspectsmentioning

confidence: 99%

“…Correlation of the axis systems assigned to experimentally determined ZFSP sets may be possible by comparison with model calculations using, e.g. superposition model analysis [29][30][31], which must be carried out in a well-defined axis system, usually the crystallographic one.…”

Section: Basic Nomenclature and Theoretical Aspectsmentioning

confidence: 99%

Alternative zero-field splitting (ZFS) parameter sets and standardization for Mn2+ ions in various hosts exhibiting orthorhombic site symmetry

Kripal

Yadav

Gnutek

et al. 2009

Journal of Physics and Chemistry of Solids

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“…Since the SM was introduced by Newman and his co-workers 7,9 to successfully analyse the CFP of lanthanide ions in various garnets and other crystal systems 10 , its equation and formalism had been widely extended to model the spin-Hamiltonian parameters (SHP) for the zero-field splittings of the ground 8 S 7/2 state of the 4f 7 (Gd 3+ and Eu 2+ ) ions or ground 6 S 5/2 state of 3d 5 (Fe 3+ and Mn 2+ ) ions [11][12][13] , even though the contributing mechanisms to SHP are substantially different from those of CFP. For analyzing the crystal field splittings of the 3d transition-metal ions, the examples of SM application were relatively fewer [14][15][16] because of the rather limited number or incomplete set of CFP derived from some experimental energy levels of which their states are often poorly determined or identified.…”

Section: Superposition Modelmentioning

confidence: 99%

“…Since the pioneering paper by Bethe 1 However, there are several models of crystal field which allows for direct calculation or estimation of the numerical values of CFP's. In the next section two such models used in the present paper -superposition model (SM) 7 and exchange charge model (ECM) 8 will be described briefly. The main goal of the present study is to establish a feasible way to extract the values of the SM intrinsic parameters for Co 2+ using the values of CFP obtained within the framework of ECM and to re-examine the plausible form of the distance dependence of the SM intrinsic parameters.…”

Section: Introductionmentioning

confidence: 99%

Semi-ab initio calculations of superposition model and crystal field parameters for Co2+ ions using the exchange charge model

Brik

Yeung

2008

Journal of Physics and Chemistry of Solids

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“…However, these parameters do not in themselves give a direct insight into the mechanisms of the crystal field splitting [36]. The rank 4 CFPs are dominated by covalency and closely related overlap contributions [31].…”

Section: Interpretation Of Crystal Field Parametersmentioning

confidence: 98%

Crystal field analysis of Dy and Tm implanted silicon for photonic and quantum technologies

et al. 2014

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Abstract:We report the lattice site and symmetry of optically active Dy 3+ and Tm 3+ implanted Si. Local symmetry was determined by fitting crystal field parameters (CFPs), corresponding to various common symmetries, to the ground state splitting determined by photoluminescence measurements. These CFP values were then used to calculate the splitting of every J manifold. We find that both Dy and Tm ions are in a Si substitution site with local tetragonal symmetry. Knowledge of rare-earth ion symmetry is important in maximising the number of optically active centres and for quantum technology applications where local symmetry can be used to control decoherence. 3854-3856 (1996). 14. J. D. Carey, R. C. Barklie, J. F. Donegan, F. Priolo, G. Franzo, and S. Coffa, "Electron paramagnetic resonance and photoluminescence study of Er-impurity complexes in Si," Phys. Rev. B 59(4), 2773-2782 (1999 391-406 (1966). 24. R. M. Macfarlane, "Photon-echo measurements on the trivalent thulium ion," Opt. Lett. 18(22), 1958-1960 (1993). 25. J. B. Gruber, B. Zandi, and L. Merkle, "Crystal-field splitting of energy levels of rare-earth ions Dy 3+ (4f 9 ) and Yb 3+ (4f 13 ) in M(II) sites in the fluorapatite crystal Sr 5 (PO 4 ) 3 F," J. Appl. Phys. 83, 1009-1017 (1998). 26. U. Walter, "Treating crystal field parameters in lower than cubic symmetries," J. Phys. Chem. Solids 45(4), 401-408 (1984). 27. M. Lourenço, R. Gwilliam, and K. Homewood, "Eye-safe 2 μm luminescence from thulium-doped silicon," Opt. 699-762 (1989). 37. J. J. Baldoví, S. Cardona-Serra, J. M. Clemente-Juan, E. Coronado, A. Gaita-Ariño, and A. Palii, "SIMPRE: A software package to calculate crystal field parameters, energy levels, and magnetic properties on mononuclear lanthanoid complexes based on charge distributions," J. Comput. Chem. 34(22), 1961-1967 (2013). 38. J. J. Baldoví, J. M. Clemente-Juan, E. Coronado, A. Gaita-Ariño, and A. Palii, "An updated version of the computational package SIMPRE that uses the standard conventions for Stevens crystal field parameters," J.

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The superposition model of crystal fields

Cited by 1,127 publications

References 177 publications

Alternative zero-field splitting (ZFS) parameter sets and standardization for Mn2+ ions in various hosts exhibiting orthorhombic site symmetry

Alternative zero-field splitting (ZFS) parameter sets and standardization for Mn2+ ions in various hosts exhibiting orthorhombic site symmetry

Semi-ab initio calculations of superposition model and crystal field parameters for Co2+ ions using the exchange charge model

Crystal field analysis of Dy and Tm implanted silicon for photonic and quantum technologies

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