Abstract
X-band ESR spectra of natural zircon were measured at room temperature with the applied magnetic field parallel and perpendicular to the crystal axis [0 0 1]. Seven resonance absorption peaks of Zeeman interaction are obtained, due to a trace of the Gd 3+ present in the natural zircon. The ground state of Gd 3+, 8S 7/2 give rise to seven resonance absorption peaks under an applied magnetic field. In addition, the weak hyperfine structure lines are observed between adjacent Zeeman lines, due to isotope 157Gd 3+ and 155Gd 3+. The ESR spectra were also measured at the different rotation angle θ and φ from 0 to 180° with respect to the applied magnetic field. The angular variation of ESR spectra of Gd 3+ with the applied magnetic field clearly reflected that the crystal field symmetry of the surrounding of Gd 3+ is D 2d, and hence Gd 3+ substituted Zr 4+ in the lattice. According to the crystal field, it was shown that the ground state energy level of the Gd 3+was split into four doublets.
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