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EMR-related problems at the interface between the crystal field Hamiltonians and the zero-field splitting Hamiltonians

. (1992). Electron paramagnetic resonance of d transition-metal compounds. Amsterdam: Elsevier. 9. Misra, S. K. (Ed.) (2011). Multifrequency electron paramagnetic resonance. Weinheim: Wiley-VCH. 10. Boča, R. (1999). Theoretical foundations of molecular magnetism. Amsterdam: Elsevier. 11. Buschow, K. H. J., & de Boer, F. R. (2003). Physics of magnetism and magnetic materials . New York: Kluwer Academic. 12. Boča, R. (2006). Magnetic parameters and magnetic functions in mononuclear complexes beyond the spin-Hamiltonian formalism. Struct

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EMR study and superposition model analysis of Cr3+ and Fe3+ impurity ions in mullite powders used in aerospace industry

.1002/3527607358. 4. Rager, H., Schneider, H., & Graetsch, H. (1990). Chromium incorporation in mullite. Am. Miner. , 75 , 392–397. 5. Abragam, A., & Bleaney, B. (1986). Electron paramagnetic resonance of transition ions . New York: Dover. 6. Rudowicz, C. (1987). Concept of spin Hamiltonian, forms of zero-field splitting and electronic Zeeman Hamiltonians and relations between parameters used in EPR. A critical review. Magn. Reson. Rev., 13 , 1–89; (1988) Erratum, ibidem 13 , 335. 7. Rudowicz, C., & Misra, S. K. (2001). Spin-Hamiltonian formalisms in electron

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Growth and EPR properties of ErVO4 single crystals


Single crystals of ErVO4 were grown by the Czochralski method under ambient pressure in a nitrogen atmosphere. Obtained crystals were transparent with strong pink coloring. Electron paramagnetic resonance (EPR) spectra were recorded as a function of the applied magnetic field. Temperature and angular dependences of the EPR spectra of the samples in the 3–300 K temperature range were analyzed applying both Lorentzian––Gauss approximation for diluted medium and Dyson for dense magnetic medium. EPR-NMR program was done to find local symmetry and spin Hamiltonian parameters of erbium ions.

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