EPR Spectroscopy of $$^{53}\hbox {Cr}^{3+}$$ Monoisotopic Impurity Ions in a Single Crystal of Scandium Orthosilicate $$\hbox {Sc}_{2}\hbox {SiO}_{5}$$

Autor: A. V. Shestakov, Valery F. Tarasov, R.F. Likerov, Yu. D. Zavartsev, R. M. Eremina, S. A. Kutovoi, K. B. Konov
Rok vydání: 2020
Předmět:
Zdroj: Applied Magnetic Resonance. 52:5-14
ISSN: 1613-7507
0937-9347
DOI: 10.1007/s00723-020-01225-x
Popis: Monoisotopic $$^{53}\hbox {Cr}^{3+}$$ impurity ions in scandium orthosilicate single crystal ( $$\hbox {Sc}_2\hbox {SiO}_5$$ ) are studied by the method of electron paramagnetic resonance in the X-band frequencies. The directions of the main principal magnetic axes and the parameters of the effective spin Hamiltonian that describe the magnetic characteristics of the impurity centers of chromium, which replaces scandium in two structurally nonequivalent positions, are determined. It is shown that the orientation dependencies of the EPR spectra are well described by the second-order spin Hamiltonian corresponding to the orthorhombic symmetry of the local crystal field acting on the impurity ion. It was assumed that the g-tensor and the A-tensor determining the Zeeman energy of electronic levels in a magnetic field and the hyperfine interaction of electron and nuclear spins are isotropic, and the entire anisotropy of the EPR spectra is due to the anisotropy of the D-tensor, which describes the fine structure of electronic levels in a crystalline electric field. A strong dependence of the probability of “forbidden” transitions between hyperfine sublevels of electronic levels on the orientation of an external magnetic field is established. Moreover, for some orientations, the probability of “forbidden” transitions exceeds the probability of “allowed” transitions.
Databáze: OpenAIRE
Externí odkaz: