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Abstract
AbstractMössbauer measurements are made in undoped and Cr3+‐doped Al2O3–0.04 mol% 57Fe2O3 systems at 4.2 K. The cross relaxation between Fe3+ and Cr3+ ions, dispersed in the diamagnetic Al2O3 lattice, is studied. The spin–spin relaxation time of the Cr3+ ions is reduced with increasing Cr3+ concentration and these faster relaxing Cr3+ spins are found to enhance the Fe3+‐relaxation process, destroying the paramagnetic hyperfine structure observed in the 57Fe Mössbauer spectra of undoped Al2O3–0.04 mol% 57Fe2O3. It is concluded that at higher Cr3+ concentrations, cross relaxation does not take place by the mutual energy exchange between a Cr3+ ion and and Fe3+ ion but a new kind of pair cross‐relaxation process occurs where a Cr3+ ion and an Fe3+ ion first form an exchange coupled pair and then two such pairs cross relax.
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